Your search keyword '"van Gelder M"' showing total 397 results

1. JWST Observations of Young protoStars (JOYS). Overview of gaseous molecular emission and absorption in low-mass protostars

Author

van Gelder, M. L., Francis, L., van Dishoeck, E. F., Tychoniec, Ł., Ray, T. P., Beuther, H., Garatti, A. Caratti o, Chen, Y., Devaraj, R., Gieser, C., Justtanont, K., Kavanagh, P. J., Nazari, P., Reyes, S., Rocha, W. R. M., Slavicinska, K., Güdel, M., Henning, Th., Lagage, P. -O., and Wright, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The MIRI-MRS instrument onboard JWST allows for probing the molecular gas composition at mid-IR wavelengths at unprecedented resolution and sensitivity. It is important to study these features in low-mass embedded protostellar systems since the formation of planets is thought to start in this phase. We present JWST/MIRI-MRS data of 18 low-mass protostellar systems in the JOYS program, focusing on gas-phase molecular lines in spectra extracted from the central protostellar positions. Besides H2, the most commonly detected molecules are H2O, CO2, CO, and OH. Other molecules such as 13CO2, C2H2, 13CCH, HCN, C4H2, CH4, and SO2 are detected only toward at most three of the sources. The JOYS data also yield the surprising detection of SiO gas toward two sources (BHR71-IRS1, L1448-mm) and for the first time CS and NH3 at mid-IR wavelengths toward a low-mass protostar (B1-c). The temperatures derived for the majority of the molecules are 100-300 K, much lower than what is typically derived toward more evolved Class II sources (>500 K). Toward three sources (e.g., TMC1-W), hot (~1000 K) H2O is detected, indicative of the presence of hot molecular gas in the embedded disks, but such warm emission from other molecules is absent. The agreement in abundance ratios with respect to H2O between ice and gas point toward ice sublimation in a hot core for a few sources (e.g., B1-c) whereas their disagreement and velocity offsets hint at high-temperature (shocked) conditions toward other sources (e.g., L1448-mm, BHR71-IRS1). The typical temperatures of the gas-phase molecules of 100-300 K are consistent with both ice sublimation in hot cores as well as high-temperature gas phase chemistry. Molecular features originating from the inner embedded disks are not commonly detected, likely because they are too extincted even at mid-IR wavelengths by small not-settled dust grains in upper layers of the disk., Comment: 25 pages, 11 figures, accepted for publication in A&A

Published

2024

2. JOYS+ study of solid state $^{12}$C/$^{13}$C isotope ratios in protostellar envelopes: Observations of CO and CO$_2$ ice with JWST

Author

Brunken, N. G. C., van Dishoeck, E. F., Slavicinska, K., Gouellec, V. J. M. le, Rocha, W. R. M., Francis, L., Tychoniec, L., van Gelder, M. L., Navarro, M. G., Boogert, A. C. A., Kavanagh, P. J., Nazari, P., Greene, T., Ressler, M. E., and Majumdar, L.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The carbon isotope ratio is a powerful tool for studying the evolution of stellar systems. Recent detections of CO isotopologues in disks and exoplanet atmospheres pointed towards significant fractionation in these systems. In order to understand the evolution of this quantity, it is crucial to trace the isotope abundance from stellar nurseries to planetary systems. During the protostellar stage the multiple vibrational modes of CO$_2$ and CO ice provide a unique opportunity to examine the carbon isotope ratio in the solid state. Now with the sensitivity of the \textit{James Webb Space Telescope}, these absorption features have become accessible at high S/N in Solar-mass systems. We quantify the $^{12}$CO$_2$/$^{13}$CO$_2$ and the $^{12}$CO/$^{13}$CO isotope ratios in 17 class 0/I low mass protostars from the $^{12}$CO$_2$ combination modes (2.70 ${\mu}$m and 2.77 ${\mu}$m), the $^{12}$CO$_2$ stretching mode (4.27 ${\mu}$m), the $^{13}$CO$_2$ stretching mode (4.39 ${\mu}$m), the $^{12}$CO$_2$ bending mode (15.2 ${\mu}$m), the $^{12}$CO stretching mode (4.67 ${\mu}$m) and the $^{13}$CO stretching mode (4.78 ${\mu}$m) using JWST observations. We also report a detection of the $^{12}$CO overtone mode at 2.35 ${\mu}$m. The $^{12}$CO$_2$/$^{13}$CO$_2$ ratios are in agreement and we find mean ratios of 85 $\pm$ 23, 76 $\pm$ 12 and 97 $\pm$ 17 for the 2.70 ${\mu}$m, 4.27 ${\mu}$m and the 15.2 ${\mu}$m bands, respectively. The main source of uncertainty stem from the error on the band strengths. The $^{12}$CO/$^{13}$CO ratios derived from the 4.67 ${\mu}$m bands are consistent, albeit elevated with respect to the $^{12}$CO$_2$/$^{13}$CO$_2$ ratios and we find a mean ratio of 165 $\pm$ 52. These findings indicate that ices leave the pre-stellar stage with elevated carbon isotope ratios relative to the interstellar medium and that fractionation becomes significant during the later stages.

Published

2024

3. JWST Observations of Young protoStars (JOYS). HH 211: the textbook case of a protostellar jet and outflow

Author

Garatti, A. Caratti o, Ray, T. P., Kavanagh, P. J., McCaughrean, M. J., Gieser, C., Giannini, T., van Dishoeck, E. F., Justtanont, K., van Gelder, M. L., Francis, L., Beuther, H., Tychoniec, Ł., Nisini, B., Navarro, M. G., Devaraj, R., Reyes, S., Nazar, P., Klaassen, P., Güdel, M., Henning, Th., Lagage, P. O., Östlin, G., Vandenbussche, B., Waelkens, C., and Wright, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We use the James Webb Space Telescope (JWST) and its Mid-Infrared Instrument (MIRI) (5-28 um), to study the embedded HH 211 flow. We map a 0.95'x0.22' region, covering the full extent of the blue-shifted lobe, the central protostellar region, and a small portion of the red-shifted lobe. The jet driving source is not detected even at the longest mid-IR wavelengths. The overall morphology of the flow consists of a highly collimated jet, mostly molecular (H2, HD) with an inner atomic ([FeI], [FeII], [SI], [NiII]) structure. The jet shocks the ambient medium, producing several large bow-shocks, rich in forbidden atomic and molecular lines, and is driving an H2 molecular outflow, mostly traced by low-J, v=0 transitions. Moreover, 0-0 S(1) uncollimated emission is also detected down to 2"-3" (~650-1000 au) from the source, tracing a cold (T=200-400 K), less dense and poorly collimated molecular wind. The atomic jet ([FeII] at 26 um) is detected down to ~130 au from source, whereas the lack of H2 emission close to the source is likely due to the large visual extinction. Dust continuum-emission is detected at the terminal bow-shocks, and in the blue- and red-shifted jet, being likely dust lifted from the disk. The jet shows an onion-like structure, with layers of different size, velocity, temperature, and chemical composition. Moreover, moving from the inner jet to the outer bow-shocks, different physical, kinematic and excitation conditions for both molecular and atomic gas are observed. The jet mass-flux rate, momentum, and momentum flux of the warm H2 component are up to one order of magnitude higher than those inferred from the atomic jet component. Our findings indicate that the warm H2 component is the primary mover of the outflow, namely it is the most significant dynamical component of the jet, in contrast to jets from more evolved YSOs, where the atomic component is dominant., Comment: Paper accepted in A&A for publication

Published

2024

4. JOYS+: link between ice and gas of complex organic molecules. Comparing JWST and ALMA data of two low-mass protostars

Author

Chen, Y., Rocha, W. R. M., van Dishoeck, E. F., van Gelder, M. L., Nazari, P., Slavicinska, K., Francis, L., Tabone, B., Ressler, M. E., Klaassen, P. D., Beuther, H., Boogert, A. C. A., Gieser, C., Kavanagh, P. J., Perotti, G., Gouellec, V. J. M. Le, Majumdar, L., Güdel, M., and Henning, Th.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

A rich inventory of complex organic molecules (COMs) has been observed in high abundances in the gas phase toward Class 0 protostars. These molecules are suggested to be formed in ices and sublimate in the warm inner envelope close to the protostar. However, only the most abundant COM, methanol (CH3OH), has been firmly detected in ices before the era of James Webb Space Telescope (JWST). Now it is possible to detect the interstellar ices of other COMs and constrain their ice column densities quantitatively. We aim to determine the column densities of several oxygen-bearing COMs (O-COMs) in both gas and ice for two low-mass protostellar sources, NGC 1333 IRAS 2A and B1-c, as case studies in our JWST Observations of Young protoStars (JOYS+) program. By comparing the column density ratios w.r.t. CH3OH between both phases measured in the same sources, we can probe into the evolution of COMs from ice to gas in the early stages of star formation. We are able to fit the fingerprints range of COM ices between 6.8 and 8.8 um in the JWST/MIRI-MRS spectra of B1-c using similar components as recently used for IRAS 2A. We claim detection of CH4, OCN-, HCOO-, HCOOH, CH3CHO, C2H5OH, CH3OCH3, CH3OCHO, and CH3COCH3 in B1-c, and upper limits are estimated for SO2, CH3COOH, and CH3CN. The comparison of O-COM ratios w.r.t CH3OH between ice and gas shows two different cases. 1) the column density ratios of CH3OCHO and CH3OCH3 match well between the two phases, which may be attributed to a direct inheritance from ice to gas or strong chemical links with CH3OH. 2) the ice ratios of CH3CHO and C2H5OH w.r.t. CH3OH are higher than the gas ratios by 1-2 orders of magnitudes. This difference can be explained by the gas-phase reprocessing following sublimation, or different spatial distributions of COMs in the envelope., Comment: 42 pages (22 main text, 20 appendix); 27 figures (12 in main text, 15 in appendix); 5 tables (2 in main text, 3 in appendix) Accepted for publication in A&A

Published

2024

5. ALMA view of the L1448-mm protostellar system on disk scales: CH$_3$OH and H$^{13}$CN as new disk wind tracers

Author

Nazari, P., Tabone, B., Ahmadi, A., Cabrit, S., van Dishoeck, E. F., Codella, C., Ferreira, J., Podio, L., Tychoniec, Ł., and van Gelder, M. L.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Protostellar disks are known to accrete, however, the exact mechanism that extracts the angular momentum and drives accretion in the low-ionization "dead" region of the disk is under debate. In recent years, magneto-hydrodynamic (MHD) disk winds have become a popular solution. Yet, observations of these winds require both high spatial resolution (${\sim}10$s au) and high sensitivity, which has resulted in only a handful of MHD disk wind candidates so far. In this work we present high angular resolution (${\sim}30$ au) ALMA observations of the emblematic L1448-mm protostellar system and find suggestive evidence for an MHD disk wind. The disk seen in dust continuum (${\sim}0.9$ mm) has a radius of ${\sim}23$ au. Rotating infall signatures in H$^{13}$CO$^+$ indicate a central mass of $0.4\pm 0.1$ M$_\odot$ and a centrifugal radius similar to the dust disk radius. Above the disk, we unveil rotation signatures in the outflow traced by H$^{13}$CN, CH$_3$OH, and SO lines and find a kinematical structure consistent with theoretical predictions for MHD disk winds. This is the first detection of an MHD disk wind candidate in H$^{13}$CN and CH$_3$OH. The wind launching region estimated from cold MHD wind theory extends out to the disk edge. The magnetic lever arm parameter would be $\lambda_{\phi} \simeq 1.7$, in line with recent non-ideal MHD disk models. The estimated mass-loss rate is ${\sim}4$ times the protostellar accretion rate ($\dot{M}_{\rm acc} \simeq 2 \times 10^{-6} M_{\odot}/yr$) and suggests that the rotating wind could carry enough angular momentum to drive disk accretion., Comment: Accepted for publication in A&A

Published

2024

6. JWST Observations of Young protoStars (JOYS+): Detection of icy complex organic molecules and ions. I. CH$_4$, SO$_2$, HCOO$^-$, OCN$^-$, H$_2$CO, HCOOH, CH$_3$CH$_2$OH, CH$_3$CHO, CH$_3$OCHO, CH$_3$COOH

Author

Rocha, W. R. M., van Dishoeck, E. F., Ressler, M. E., van Gelder, M. L., Slavicinska, K., Brunken, N. G. C., Linnartz, H., Ray, T. P., Beuther, H., Garatti, A. Caratti o, Geers, V., Kavanagh, P. J., Klaassen, P. D., Justannont, K., Chen, Y., Francis, L., Gieser, C., Perotti, G., Tychoniec, Ł., Barsony, M., Majumdar, L., Gouellec, V. J. M. le, Chu, L. E. U., Lew, B. W. P., Henning, Th., and Wright, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Complex organic molecules (COMs) detected in the gas phase are thought to be mostly formed on icy grains, but no unambiguous detection of icy COMs larger than CH3OH has been reported so far. Exploring this matter in more detail has become possible with the JWST the critical 5-10 $\mu$m range. In the JOYS+ program, more than 30 protostars are being observed with the MIRI/MRS. This study explores the COMs ice signatures in the low and high-mass protostar, IRAS 2A and IRAS 23385, respectively. We fit continuum and silicate subtracted observational data with IR laboratory ice spectra. We use the ENIIGMA fitting tool to find the best fit between the lab data and the observations and to performs statistical analysis of the solutions. We report the best fits for the spectral ranges between 6.8 and 8.6 $\mu$m in IRAS 2A and IRAS 23385, originating from simple molecules, COMs, and negative ions. The strongest feature in this range (7.7 $\mu$m) is dominated by CH4 and has contributions of SO2 and OCN-. Our results indicate that the 7.2 and 7.4 $\mu$m bands are mostly dominated by HCOO-. We find statistically robust detections of COMs based on multiple bands, most notably CH3CHO, CH3CH2OH, and CH3OCHO. The likely detection of CH3COOH is also reported. The ice column density ratios between CH3CH2OH and CH3CHO of IRAS 2A and IRAS 23385, suggests that these COMs are formed on icy grains. Finally, the derived ice abundances for IRAS 2A correlate well with those in comet 67P/GC within a factor of 5. Based on the MIRI/MRS data, we conclude that COMs are present in interstellar ices, thus providing additional proof for a solid-state origin of these species in star-forming regions. The good correlation between the ice abundances in comet 67P and IRAS 2A is in line with the idea that cometary COMs can be inherited from the early protostellar phases., Comment: Accepted for publication in A&A

Published

2023

7. Spectroscopic variability of massive pre-main-sequence stars in M17

Author

Derkink, A. R., Ramírez-Tannus, M. C., Kaper, L., de Koter, A., Backs, F., Poorta, J., and van Gelder, M. L.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

It is a challenge to study the formation process of massive stars: their formation time is short, they are few, often deeply embedded, and at relatively large distances. Our strategy is to study the outcome of the star formation process and to look for signatures remnant of the formation. We have access to a unique sample of (massive) pre-main-sequence (PMS) stars in the giant HII region M17, showing a photosphere and circumstellar disk. The aim is to determine the variability properties of the hot gaseous disks to understand the physical origin of the emission lines and identify dominant physical processes in these disks. We have obtained multiple-epoch (4-5 epochs) VLT/X-shooter spectra of six young stars in M17 covering about a decade. Using stacked spectra we update the spectral classification and identify circumstellar features. With the temporal variance method (TVS) we determine the extent and amplitude of the spectral line variations. The double-peaked emission lines in the PMS stars with gaseous disks are used to determine peak-to-peak velocities, V/R-ratios and the radial velocity of the systems. We identify many disk features, under which a new detection of CO bandhead and CI emission. In three of the stars we detect spectral variability, mainly in lines originating in the circumstellar disk, in a velocity range up to 320 km/s. In two PMS stars the ratio between the blue and red peaks shows a correlation with the peak-to-peak velocity, possibly explained by a spiral-arm structure in the disk. The PMS stars with variability are at similar positions in the HRD but show significant differences in disk lines and variability. The extent and timescale of the variability differs for each star and per line (sets). We find indications for an accretion flow, slow disk winds and/or disk structures in the hot gaseous inner disk as the cause of the variability in these PMS stars., Comment: 27 pages, 24 figures, accepted for publication in Astronomy and Astrophysics, abstract abbreviated

Published

2023

8. JOYS: Disentangling the warm and cold material in the high-mass IRAS 23385+6053 cluster

Author

Gieser, C., Beuther, H., van Dishoeck, E. F., Francis, L., van Gelder, M. L., Tychoniec, L., Kavanagh, P. J., Perotti, G., Garatti, A. Caratti o, Ray, T. P., Klaassen, P., Justtanont, K., Linnartz, H., Rocha, W. R. M., Slavicinska, K., Colina, L., Güdel, M., Henning, Th., Lagage, P. -O., Östlin, G., Vandenbussche, B., Waelkens, C., and Wright, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

(abridged) We study and compare the warm (>100 K) and cold (<100 K) material toward the high-mass star-forming region IRAS 23385+6053 (IRAS 23385 hereafter) combining high angular resolution observations in the mid-infrared (MIR) with the JWST Observations of Young protoStars (JOYS) project and with the NOEMA at mm wavelengths at angular resolutions of 0.2"-1". The spatial morphology of atomic and molecular species is investigated by line integrated intensity maps. The temperature and column density of different gas components is estimated using H2 transitions (warm and hot component) and a series of CH3CN transitions as well as 3 mm continuum emission (cold component). Toward the central dense core in IRAS 23385 the material consists of relatively cold gas and dust (~50 K), while multiple outflows create heated and/or shocked H2 and show enhanced temperatures (~400 K) along the outflow structures. An energetic outflow with enhanced emission knots of [Fe II] and [Ni II] hints at J-type shocks, while two other outflows have enhanced emission of only H2 and [S I] caused by C-type shocks. The latter two outflows are also more prominent in molecular line emission at mm wavelengths (e.g., SiO, SO, H2CO, and CH3OH). Even higher angular resolution data are needed to unambiguously identify the outflow driving sources given the clustered nature of IRAS 23385. While most of the forbidden fine structure transitions are blueshifted, [Ne II] and [Ne III] peak at the source velocity toward the MIR source A/mmA2 suggesting that the emission is originating from closer to the protostar., Comment: 15 pages, 7 figures, accepted for publication in A&A

Published

2023

9. CoCCoA: Complex Chemistry in hot Cores with ALMA. Selected oxygen-bearing species

Author

Chen, Y., van Gelder, M. L., Nazari, P., Brogan, C. L., van Dishoeck, E. F., Linnartz, H., Jørgensen, J. K., Hunter, T. R., Wilkins, O. H., Blake, G. A., Caselli, P., Chuang, K. -J., Codella, C., Cooke, I., Drozdovskaya, M. N., Garrod, R. T., Ioppolo, S., Jin, M., Kulterer, B. M., Ligterink, N. F. W., Lipnicky, A., Loomis, R., Rachid, M. G., Spezzano, S., and McGuire, B. A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Complex organic molecules (COMs) have been observed to be abundant in the gas phase toward protostars. Deep line surveys have been carried out only for a limited number of well-known high-mass star forming regions using the Atacama Large Millimeter/submillimeter Array (ALMA), which has unprecedented resolution and sensitivity. Statistical studies on oxygen-bearing COMs (O-COMs) in high-mass protostars using ALMA are still lacking. With the recent CoCCoA survey, we are able to determine the column density ratios of six O-COMs with respect to methanol (CH$_3$OH) in a sample of 14 high-mass protostellar sources to investigate their origin through ice and/or gas-phase chemistry. The selected species are: acetaldehyde (CH$_3$CHO), ethanol (C$_2$H$_5$OH), dimethyl ether (DME, CH$_3$OCH$_3$), methyl formate (MF, CH$_3$OCHO), glycolaldehyde (GA, CH$_2$OHCHO), and ethylene glycol (EG, (CH$_2$OH)$_2$). DME and MF have the highest and most constant ratios within one order of magnitude, while the other four species have lower ratios and exhibit larger scatter by 1-2 orders of magnitude. We compare the O-COM ratios of high-mass CoCCoA sources with those of 5 low-mass protostars available from the literature, along with the results from experiments and simulations. We find that the O-COM ratios with respect to methanol are on the same level in both the high- and low-mass samples, which suggests that these species are mainly formed in similar environments during star formation, probably in ice mantles on dust grains during early pre-stellar stages. Current simulations and experiments can reproduce most observational trends with a few exceptions, and hypotheses exist to explain the differences between observations and simulations/experiments, such as the involvement of gas-phase chemistry and different emitting areas of molecules., Comment: Accepted for publication in Astronomy & Astrophysics. 17 pages and 7 figures in the main body, 15 pages and 8 figures in the appendix

Published

2023

10. The diverse chemistry of protoplanetary disks as revealed by JWST

Author

van Dishoeck, Ewine F., Grant, S., Tabone, B., van Gelder, M., Francis, L., Tychoniec, L., Bettoni, G., Arabhavi, A. M., Gasman, D., Nazari, P., Vlasblom, M., Kavanagh, P., Christiaens, V., Klaassen, P., Beuther, H., Henning, Th., and Kamp, I.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

Early results from the JWST-MIRI guaranteed time programs on protostars (JOYS) and disks (MINDS) are presented. Thanks to the increased sensitivity, spectral and spatial resolution of the MIRI spectrometer, the chemical inventory of the planet-forming zones in disks can be investigated with unprecedented detail across stellar mass range and age. Here data are presented for five disks, four around low-mass stars and one around a very young high-mass star. The mid-infrared spectra show some similarities but also significant diversity: some sources are rich in CO2, others in H2O or C2H2. In one disk around a very low-mass star, booming C2H2 emission provides evidence for a ``soot'' line at which carbon grains are eroded and sublimated, leading to a rich hydrocarbon chemistry in which even di-acetylene (C4H2) and benzene (C6H6) are detected (Tabone et al. 2023). Together, the data point to an active inner disk gas-phase chemistry that is closely linked to the physical structure (temperature, snowlines, presence of cavities and dust traps) of the entire disk and which may result in varying CO2/H2O abundances and high C/O ratios >1 in some cases. Ultimately, this diversity in disk chemistry will also be reflected in the diversity of the chemical composition of exoplanets., Comment: 17 pages, 8 figures. Author's version of paper submitted to Faraday Discussions January 18 2023, Accepted March 16 2023

Published

2023

11. JOYS: JWST Observations of Young protoStars: Outflows and accretion in the high-mass star-forming region IRAS23385+605

Author

Beuther, H., van Dishoeck, E. F., Tychoniec, L., Gieser, C., Kavanagh, P. J., Perotti, G., van Gelder, M. L., Klaassen, P., Garatti, A. Caratti o, Francis, L., Rocha, W. R. M., Slavicinska, K., Ray, T., Justtanont, K., Linnartz, H., Weakens, C., Colina, L., Greve, T., Guedel, M., Henning, T., Lagage, P. O., Vandenbussche, B., Oestlin, G., and Wright, G.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Aims: The JWST program JOYS (JWST Observations of Young protoStars) aims at characterizing the physical and chemical properties of young high- and low-mass star-forming regions, in particular the unique mid-infrared diagnostics of the warmer gas and solid-state components. We present early results from the high-mass star formation region IRAS23385+6053. Methods: The JOYS program uses the MIRI MRS with its IFU to investigate a sample of high- and low-mass star-forming protostellar systems. Results: The 5 to 28mum MIRI spectrum of IRAS23385+6053 shows a plethora of features. While the general spectrum is typical for an embedded protostar, we see many atomic and molecular gas lines boosted by the higher spectral resolution and sensitivity compared to previous space missions. Furthermore, ice and dust absorption features are also present. Here, we focus on the continuum emission, outflow tracers like the H2, [FeII] and [NeII] lines as well as the potential accretion tracer Humphreys alpha HI(7--6). The short-wavelength MIRI data resolve two continuum sources A and B, where mid-infrared source A is associated with the main mm continuum peak. The combination of mid-infrared and mm data reveals a young cluster in its making. Combining the mid-infrared outflow tracer H2, [FeII] and [NeII] with mm SiO data shows a complex interplay of at least three molecular outflows driven by protostars in the forming cluster. Furthermore, the Humphreys alpha line is detected at a 3-4sigma level towards the mid-infrared sources A and B. Following Rigliaco et al. (2015), one can roughly estimate accretion luminosities and corresponding accretion rates between ~2.6x10^-6 and ~0.9x10^-4 M_sun/yr. This is discussed in the context of the observed outflow rates. Conclusions: The analysis of the MIRI MRS observations for this young high-mass star-forming region reveals connected outflow and accretion signatures., Comment: 12 pages, 9 figures, accepted for Astronomy & Astrophysics, the paper is also available at https://www2.mpia-hd.mpg.de/homes/beuther/papers.html

Published

2023

12. N-bearing complex organics toward high-mass protostars: Constant ratios pointing to formation in similar pre-stellar conditions across a large mass range

Author

Nazari, P., Meijerhof, J. D., van Gelder, M. L., Ahmadi, A., van Dishoeck, E. F., Tabone, B., Langeroodi, D., Ligterink, N. F. W., Jaspers, J., Beltrán, M. T., Fuller, G. A., Sánchez-Monge, Á., and Schilke, P.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

No statistical study of COMs toward a large sample of high-mass protostars with ALMA has been carried out so far. We aim to study six N-bearing species: CH$_3$CN, HNCO, NH$_2$CHO, C$_2$H$_5$CN, C$_2$H$_3$CN and CH$_3$NH$_2$ in a large sample of high-mass protostars. From the ALMAGAL survey, 37 of the most line-rich hot molecular cores are selected. Next, we fit their spectra and find column densities and excitation temperatures of the above N-bearing species, in addition to CH$_3$OH. We (tentatively) detect CH$_3$NH$_2$ in $\sim32%$ of the sources. We find three groups of species when comparing their excitation temperatures: hot (NH$_2$CHO; Tex > 250 K), warm (C$_2$H$_3$CN, HN$^{13}$CO and CH$_{3}^{13}$CN; 100 K < Tex < 250 K) and cold species (CH$_3$OH and CH$_3$NH$_2$; Tex < 100 K). This temperature segregation reflects the trend seen in their sublimation temperatures and validates the idea of onion-like structure of COMs around protostars. Moreover, the molecules studied here show constant column density ratios across low- and high-mass protostars with scatter less than a factor $\sim3$ around the mean. The constant column density ratios point to a common formation environment of COMs or their precursors, most likely in the pre-stellar ices. The scatter around the mean of the ratios, although small, varies depending on the species considered. This spread can either have a physical origin (source structure, line or dust optical depth) or a chemical one. Formamide is most prone to the physical effects as it is tracing the closest regions to the protostars, whereas such effects are small for other species. Assuming that all molecules form in the pre-stellar ices, the scatter variations could be explained by differences in lifetimes or physical conditions of the pre-stellar clouds. If the pre-stellar lifetimes are the main factor, they should be similar for low- and high-mass protostars., Comment: 49 pages, 46 figures, Accepted for publication in A&A

Published

2022

13. Methanol deuteration in high-mass protostars

Author

van Gelder, M. L., Jaspers, J., Nazari, P., Ahmadi, A., van Dishoeck, E. F., Beltrán, M. T., Fuller, G. A., Sánchez-Monge, Á., and Schilke, P.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

The deuteration of molecules forming in the ices such as methanol (CH$_3$OH) is sensitive to the physical conditions during their formation in dense cold clouds and can be probed through observations of deuterated methanol in hot cores. Observations with ALMA containing transitions of CH$_3$OH, CH$_2$DOH, CHD$_2$OH, $^{13}$CH$_3$OH, and CH$_3^{18}$OH are investigated. The column densities of CH$_2$DOH, CHD$_2$OH, and CH$_3$OH are determined for all sources, where the column density of CH$_3$OH is derived from optically thin $^{13}$C and $^{18}$O isotopologues. Consequently, the D/H ratio of methanol is derived taking statistical effects into account. Singly deuterated methanol (CH$_2$DOH) is detected toward 25 of the 99 sources in our sample of the high-mass protostars. Including upper limits, the $\rm (D/H)_{CH_3OH}$ ratio inferred from $N_\mathrm{CH_2DOH}/N_\mathrm{CH_3OH}$ was derived for 38 of the 99 sources and varies between $\sim10^{-3}-10^{-2}$. Including other high-mass hot cores from the literature, the mean methanol D/H ratio is $1.1\pm0.7\times10^{-3}$. This is more than one order of magnitude lower than what is seen for low-mass protostellar systems ($2.2\pm1.2\times10^{-2}$). Doubly deuterated methanol (CHD$_2$OH) is detected toward 11 of the 99 sources. Including upper limits for 15 sources, the $\rm (D/H)_{CH_2DOH}$ ratios derived from $N_\mathrm{CHD_2OH}/N_\mathrm{CH_2DOH}$ are more than two orders of magnitude higher than $\rm (D/H)_{CH_3OH}$ with an average of $2.0\pm0.8\times10^{-1}$ which is similar to what is found for low-mass sources. Comparison with literature GRAINOBLE models suggests that the high-mass prestellar phases are either warm ($>20$ K) or live shorter than the free-fall timescale. In contrast, for low-mass protostars, both a low temperature of $<15$ K and a prestellar phase timescale longer than the free-fall timescale are necessary., Comment: 17 pages, 9 figures, accepted to A&A

Published

2022

14. Importance of source structure on complex organics emission II. Can disks explain lack of methanol emission from some low-mass protostars?

Author

Nazari, P., Tabone, B., Rosotti, G. P., van Gelder, M. L., Meshaka, R., and van Dishoeck, E. F.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Some protostellar systems show little or no millimetre line emission of complex organics. This can be interpreted as a low abundance of these molecules, alternatively they could be present in the system but are not seen in the gas. The goal is to investigate the latter hypothesis for methanol. We will attempt to answer the question: Does the presence of a disk and optically thick dust reduce methanol emission even if methanol is abundant in the ices and gas? Using the radiative transfer code RADMC-3D, methanol emission lines from an envelope-only model and an envelope-plus-disk model are calculated and compared with each other and the observations. Methanol emission from the envelope-only model is always stronger than from the envelope-plus-disk model by at least a factor 2 as long as the disk radius is larger than 30 au (for L=8 L$_{\odot}$). In most cases, this is due to lower temperatures and, hence, the smaller amount of warm methanol inside the snow surface of the envelope-plus-disk model. The intensities drop by more than an order of magnitude for models including high mm opacity dust grains and disk radii of at least 50 au (for L=8 L$_{\odot}$) due to continuum over-subtraction. The line intensities from the envelope-only models overproduce the observations of protostars with lower methanol emission even with large dust optical depth effects. The envelope-plus-disk models can explain the bulk of the observations. However, they can only reproduce the observations of sources with high luminosities and low methanol emission when dust optical depth effects especially continuum over-subtraction in the disk becomes effective. Therefore, both the effects of disk and dust optical depth should be considered to explain the observations. In conclusion: Absence of methanol emission does not imply absence of methanol molecules in either gas or ice., Comment: Accepted to A&A

Published

2022

15. Importance of source structure on complex organics emission. I. Observations of CH$_3$OH from low-mass to high-mass protostars

Author

van Gelder, M. L., Nazari, P., Tabone, B., Ahmadi, A., van Dishoeck, E. F., Beltrán, M. T., Fuller, G. A., Sakai, N., Sánchez-Monge, Á., Schilke, P., Yang, Y. -L., and Zhang, Y.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Complex organic molecules (COMs) are often observed toward embedded Class 0 and I protostars. However, not all Class 0 and I protostars exhibit COMs emission. In this work, variations in methanol (CH$_3$OH) emission are studied to test if absence of CH$_3$OH emission can be linked to source properties. Combining both new and archival observations with ALMA and sources from the literature, a sample of 184 low-mass and high-mass protostars is investigated. The warm (T > 100 K) gaseous CH$_3$OH mass, $M_{\rm CH_3OH}$, is determined for each source using primarily optically thin isotopologues. On average, Class I protostellar systems seem to have less warm $M_{\rm CH_3OH}$ ($<10^{-10}$ M$_\odot$) than younger Class 0 sources ($\sim10^{-7}$ M$_\odot$). High-mass sources in our sample show higher warm $M_{\rm CH_3OH}$ up to $10^{-7}-10^{-3}$ M$_\odot$. To take into account the effect of the source's overall mass on $M_{\rm CH_3OH}$, a normalized CH$_3$OH mass is defined as $M_{\rm CH_3OH}/M_{\rm dust,0}$, where $M_{\rm dust,0}$ is the cold + warm dust mass within a fixed radius. Excluding upper limits, a simple power-law fit to the normalized warm CH$_3$OH masses results in $M_{\rm CH_3OH}/M_{\rm dust,0}\propto L_{\rm bol}^{0.70\pm0.05}$. This is in good agreement with a simple hot core toy model which predicts that the normalized $M_{\rm CH_3OH}$ increases with $L_{\rm bol}^{0.75}$ due to the snowline moving outward. Sources for which the size of the disk is equivalent or smaller than the estimated 100 K radius agree well with the best-fit power-law model, whereas sources with significantly larger disks show up to two orders of magnitude lower normalized warm CH$_3$OH masses. Based on the latter results, we suggest that source structure such as a disk can result in colder gas and thus fewer COMs in the gas phase. Additionally, optically thick dust can hide the emission of COMs., Comment: 22 pages, 6 figures, accepted for publication in A&A

Published

2022

16. Outflows from the youngest stars are mostly molecular

Author

Ray, T. P., McCaughrean, M. J., Caratti o Garatti, A., Kavanagh, P. J., Justtanont, K., van Dishoeck, E. F., Reitsma, M., Beuther, H., Francis, L., Gieser, C., Klaassen, P., Perotti, G., Tychoniec, L., van Gelder, M., Colina, L., Greve, Th. R., Güdel, M., Henning, Th., Lagage, P. O., Östlin, G., Vandenbussche, B., Waelkens, C., and Wright, G.

Published

2023

17. Modeling accretion shocks at the disk-envelope interface -- Sulfur chemistry

Author

van Gelder, M. L., Tabone, B., van Dishoeck, E. F., and Godard, B.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

As material from an infalling protostellar envelope hits the forming disk, an accretion shock may develop which could (partially) alter the envelope material entering the disk. Observations with the Atacama Large Millimeter/submillimeter Array (ALMA) indicate that emission originating from warm SO and SO$_2$ might be good tracers of such accretion shocks. The goal of this work is to test under what shock conditions the abundances of gas-phase SO and SO$_2$ increase in an accretion shock at the disk-envelope interface. Detailed shock models including gas dynamics are computed using the Paris-Durham shock code for non-magnetized J-type accretion shocks in typical inner envelope conditions. The effect of pre-shock density, shock velocity, and strength of the ultraviolet (UV) radiation field on the abundance of warm SO and SO$_2$ is explored. Warm gas-phase chemistry is efficient in forming SO under most J-type shock conditions considered. In lower-velocity (~3 km/s) shocks, the abundance of SO is increased through subsequent reactions starting from thermally desorbed CH$_4$ toward H$_2$CO and finally SO. In higher velocity (>4 km/s) shocks, both SO and SO$_2$ are formed through reactions of OH and atomic S. The strength of the UV radiation field is crucial for SO and in particular SO$_2$ formation through the photodissociation of H$_2$O. Thermal desorption of SO and SO$_2$ ice is only relevant in high-velocity (>5 km/s) shocks at high densities ($>10^7$ cm$^{-3}$). Warm emission from SO and SO$_2$ is a possible tracer of accretion shocks at the disk-envelope interface as long as a local UV field is present. Additional observations with ALMA at high-angular resolution could provide further constraints. Moreover, the James Webb Space Telescope will give access to other possible slow, dense shock tracers such as H$_2$, H$_2$O, and [S I] 25$\mu$m., Comment: Accepted to A&A, 18 pages, 17 figures

Published

2021

18. Complex organic molecules in low-mass protostars on Solar System scales -- II. Nitrogen-bearing species

Author

Nazari, P., van Gelder, M. L., van Dishoeck, E. F., Tabone, B., Hoff, M. L. R. van 't, Ligterink, N. F. W., Beuther, H., Boogert, A. C. A., Garatti, A. Caratti o, Klaassen, P. D., Linnartz, H., Taquet, V., and Tychoniec, Ł.

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

The chemical inventory of planets is determined by the physical and chemical processes that govern the early phases of star formation. The aim is to investigate N-bearing complex organic molecules towards two Class 0 protostars (B1-c and S68N) at millimetre wavelengths with ALMA. Next, the results of the detected N-bearing species are compared with those of O-bearing species for the same and other sources. ALMA observations in Band 6 ($\sim$ 1 mm) and Band 5 ($\sim$ 2 mm) are studied at $\sim$ 0.5" resolution, complemented by Band 3 ($\sim$ 3 mm) data in a $\sim$ 2.5" beam. NH2CHO, C2H5CN, HNCO, HN13CO, DNCO, CH3CN, CH2DCN, and CHD2CN are identified towards the investigated sources. Their abundances relative to CH3OH and HNCO are similar for the two sources, with column densities that are typically an order of magnitude lower than those of O-bearing species. The largest variations, of an order of magnitude, are seen for NH2CHO abundance ratios with respect to HNCO and CH3OH and do not correlate with the protostellar luminosity. In addition, within uncertainties, the N-bearing species have similar excitation temperatures to those of O-bearing species ($\sim$ 100 $\sim$ 300 K). The similarity of most abundances with respect to HNCO, including those of CH2DCN and CHD2CN, hints at a shared chemical history, especially the high D/H ratio in cold regions prior to star formation. However, some of the variations in abundances may reflect the sensitivity of the chemistry to local conditions such as temperature (e.g. NH2CHO), while others may arise from differences in the emitting areas of the molecules linked to their different binding energies in the ice. The two sources discussed here add to the small number of sources with such a detailed chemical analysis on Solar System scales. Future JWST data will allow a direct comparison between the ice and gas abundances of N-bearing species., Comment: Accepted to A&A, 41 pages, 37 figures

Published

2021

19. Chemically tracing the water snowline in protoplanetary disks with HCO$^+$

Author

Leemker, M., Hoff, M. L. R. van 't, Trapman, L., van Gelder, M. L., Hogerheijde, M. R., Ruíz-Rodríguez, D., and van Dishoeck, E. F.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

[Abridged] Planet formation is expected to be enhanced around snowlines in protoplanetary disks, in particular around the water snowline. However, the close proximity of the water snowline to the host star and water in the Earth's atmosphere makes a direct detection of the water snowline in protoplanetary disks challenging. Following earlier work on protostellar envelopes, the aim of this research is to investigate the validity of HCO$^+$ and H$^{13}$CO$^+$, as tracers of the water snowline in protoplanetary disks, as HCO$^+$ is destroyed by gas-phase water. Two small chemical networks are used to predict the HCO$^+$ abundance in a typical Herbig Ae disk. Subsequently, the corresponding emission profiles are modelled for H$^{13}$CO$^+$ and HCO$^+$ $J=2-1$, which provides the best balance between brightness and optical depth effects of the continuum emission. The HCO$^+$ abundance jumps by two orders of magnitude just outside the water snowline at 4.5 AU. We find that the emission of H$^{13}$CO$^+$ and HCO$^+$ is ring-shaped due to three effects: destruction of HCO$^+$ by gas-phase water, continuum optical depth, and molecular excitation effects. The presence of gas-phase water causes an additional drop of only $\sim$13% and 24% in the center of the disk, for H$^{13}$CO$^+$ and HCO$^+$, respectively. For the much more luminous outbursting source V883Ori, our models predict that the effect of dust and excitation are not limiting if the snowline is located outside $\sim$40 AU. Our analysis of ALMA observations of HCO$^+$ $J=3-2$ is consistent with the water snowline located around 100 AU. The HCO$^+$ abundance drops steeply around the water snowline, but dust and excitation can conceal the drop in HCO$^+$ emission due to the water snowline. Therefore, locating the water snowline with HCO$^+$ in Herbig disks is very difficult, but it is possible for outbursting sources like V883Ori., Comment: Accepted for publication in Astronomy and Astrophysics. 13 pages, 11 figures + appendices

Published

2020

20. Complex organic molecules in low-mass protostars on solar system scales -- I. Oxygen-bearing species

Author

van Gelder, M. L., Tabone, B., Tychoniec, Ł., van Dishoeck, E. F., Beuther, H., Boogert, A. C. A., Garatti, A. Caratti o, Klaassen, P. D., Linnartz, H., Müller, H. S. P., and Taquet, V.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Complex organic molecules (COMs) are thought to form on icy dust grains in the earliest phase of star formation. The evolution of these COMs from the youngest Class 0/I protostellar phases toward the more evolved Class II phase is still not fully understood. Since planet formation seems to start early, and mature disks are too cold for characteristic COM emission lines, studying the inventory of COMs on solar system scales in the Class 0/I stage is relevant. ALMA Band 3 (3 mm) and Band 6 (1 mm) observations are obtained of seven Class 0 protostars in the Perseus and Serpens star-forming regions. By modeling the inner protostellar region using 'LTE' models, the excitation temperature and column densities are determined for several O-bearing COMs. B1-c, B1-bS, and Serpens S68N show COM emission, i.e, three out of the seven sources. No clear correlation seems to exist between the occurrence of COMs and source luminosity. The abundances of several COMs with respect to CH3OH are remarkably similar for the three COM-rich sources, and to IRAS 16293-2422B and HH 212. For other COMs the abundances differ by up to an order of magnitude, indicating that local source conditions are case determining. B1-c hosts a cold ($T_{ex}\approx60$ K), more extended component of COM emission with a column density of typically a few % of the warm/hot ($T_{ex}\sim 200$ K), central component. A D/H ratio of 1-3 % is derived based on the CH2DOH/CH3OH ratio suggesting a temperature of $\sim$15~K during the formation of methanol. This ratio is consistent with other low-mass protostars. Future mid-infrared facilities such as JWST/MIRI will be essential to directly observe COM ices. Combining this with a larger sample of COM-rich sources with ALMA will allow for directly linking ice and gas-phase abundances in order to constrain the routes that produce and maintain chemical complexity during the star formation process., Comment: Accepted to A&A, 44 pages, 17 figures

Published

2020

21. VLT/X-shooter spectroscopy of massive young stellar objects in the 30 Doradus region of the Large Magellanic Cloud

Author

van Gelder, M. L., Kaper, L., Japelj, J., Ramírez-Tannus, M. C., Ellerbroek, L. E., Barbá, R. H., Bestenlehner, J. M., Bik, A., Gräfener, G., de Koter, A., de Mink, S. E., Sabbi, E., Sana, H., Sewiło, M., Vink, J. S., and Walborn, N. R.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The process of massive star ($M\geq8~M_\odot$) formation is still poorly understood. Observations of massive young stellar objects (MYSOs) are challenging due to their rarity, short formation timescale, large distances, and high circumstellar extinction. Here, we present the results of a spectroscopic analysis of a population of MYSOs in the Large Magellanic Cloud (LMC). We took advantage of the spectral resolution and wavelength coverage of X-shooter (300-2500 nm), mounted on the European Southern Observatory Very Large Telescope, to detect characteristic spectral features in a dozen MYSO candidates near 30 Doradus, the largest starburst region in the Local Group hosting the most massive stars known. The X-shooter spectra are strongly contaminated by nebular emission. We used a scaling method to subtract the nebular contamination from our objects. We detect H$\alpha,\beta$, [O I] 630.0 nm, Ca II infrared triplet, [Fe II] 1643.5 nm, fluorescent Fe II 1687.8 nm, H$_2$ 2121.8 nm, Br$\gamma$, and CO bandhead emission in the spectra of multiple candidates. This leads to the spectroscopic confirmation of 10 candidates as bona fide MYSOs. We compare our observations with photometric observations from the literature and find all MYSOs to have a strong near-infrared excess. We compute lower limits to the brightness and luminosity of the MYSO candidates, confirming the near-infrared excess and the massive nature of the objects. No clear correlation is seen between the Br$\gamma$ luminosity and metallicity. Combining our sample with other LMC samples results in a combined detection rate of disk features such as fluorescent Fe II and CO bandheads which is consistent with the Galactic rate (40\%). Most of our MYSOs show outflow features., Comment: Accepted to A&A, 26 pages, 19 figures, 4 tables

Published

2020

22. Fixed-duration venetoclax plus obinutuzumab improves quality of life and geriatric impairments in FCR-unfit patients with CLL

Author

Beckers, M. M. J., Bekker, A., Bellido, M., de Boer, F., Broers, R., Chamuleau, M., Croockewit, A. J., Dompeling, E. C., Eefting, M., van Gelder, M., Hoogendoorn, M., Houtenbos, I., Doorduijn, J. K., Droogendijk, J., van der Griend, R., de Heer, K., Henkens, C. M. A., Idink, C. A. M., Issa, D. E., van Kampen, R., Kater, A. P., Kersting, S., van der Klift, M., Laterveer, L., Levenga, H., Levin, M-D., Mous, R., Nijland, M., Nijziel, M., van Norden, Y., Posthuma, E. F. M., te Raa, G. D., Raymakers, R. A. P., Regelink, J. C., Sandberg, Y., Schaafsma, M. R., Silbermann, M. H., van der Spek, A. C., van der Straaten, H. M., Tanis, B., Terpstra, W. E., Tick, L. W., Tonino, S. H., Veelken, J. H., Velders, G. A., Vlasveld, L., Visser, H. P. J., Vos, J. M. I., Wittebol, S., van Zaanen, H. C. T., van der Straten, Lina, Stege, Claudia A. M., Kersting, Sabina, Nasserinejad, Kazem, Dubois, Julie, Dobber, Johan A., Mellink, Clemens H. M., van der Kevie-Kersemaekers, Anne-Marie F., Evers, Ludo M., de Boer, Fransien, Koene, Harry R., Schreurs, John, van der Klift, Marjolein, Velders, Gerjo A., van der Spek, Ellen, van der Straaten, Hanneke M., Hoogendoorn, Mels, van Gelder, Michel, Posthuma, Eduardus F. M., Visser, Hein P. J., Houtenbos, Ilse, Idink, Cecile A. M., Issa, Djamila E., Dompeling, Ellen C., van Zaanen, Henk C. T., Veelken, J. Hendrik, Levenga, Henriette, Tick, Lidwine W., Terpstra, Wim E., Tonino, Sanne H., Westerweel, Peter E., Langerak, Anton W., Kater, Arnon P., and Levin, Mark-David

Published

2023

23. Author Correction: Outflows from the youngest stars are mostly molecular

Author

Ray, T. P., McCaughrean, M. J., Caratti o Garatti, A., Kavanagh, P. J., Justtanont, K., van Dishoeck, E. F., Reitsma, M., Beuther, H., Francis, L., Gieser, C., Klaassen, P., Perotti, G., Tychoniec, L., van Gelder, M., Colina, L., Greve, Th. R., Güdel, M., Henning, Th., Lagage, P. O., Östlin, G., Vandenbussche, B., Waelkens, C., and Wright, G.

Published

2023

24. JWST Observations of Young protoStars (JOYS): HH211: Textbook case of a protostellar jet and outflow.

Author

Caratti o Garatti, A., Ray, T. P., Kavanagh, P. J., McCaughrean, M. J., Gieser, C., Giannini, T., van Dishoeck, E. F., Justtanont, K., van Gelder, M. L., Francis, L., Beuther, H., Tychoniec, Ł., Nisini, B., Navarro, M. G., Devaraj, R., Reyes, S., Nazari, P., Klaassen, P., Güdel, M., and Henning, Th.

Subjects

STELLAR winds, STAR formation, PROTOSTARS, SPACE telescopes, STARS

Abstract

Context. Due to the high visual extinction and lack of sensitive mid-infrared (MIR) telescopes, the origin and properties of outflows and jets from embedded Class 0 protostars are still poorly constrained. Aims. We aim to characterise the physical, kinematic, and dynamical properties of the HH 211 jet and outflow, one of the youngest protostellar flows. Methods. We used the James Webb Space Telescope (JWST) and its Mid-InfraRed Instrument (MIRI) in the 5–28 µm range to study the embedded HH 211 flow. We mapped a 0′.95 × 0′.22 region, covering the full extent of the blueshifted lobe, the central protostellar region, and a small portion of the redshifted lobe. We extracted spectra along the jet and outflow and constructed line and excitation maps of both atomic and molecular lines. Additional JWST NIRCam H2 narrow-band images (at 2.122 and 3.235 µm) provide a visualextinction map of the whole flow, and are used to deredden our data. Results. The jet-driving source is not detected even at the longest MIR wavelengths. The overall morphology of the flow consists of a highly collimated jet, which is mostly molecular (H2, HD) with an inner atomic ([Fe I], [Fe II], [S I], [Ni II]) structure. The jet shocks the ambient medium, producing several large bow shocks (BSs) that are rich in forbidden atomic ([Fe II], [S I], [Ni II], [Cl I], [Cl II], [Ar II], [Co II], [Ne II], [S III]) and molecular lines (H2, HD, CO, OH, H2O, CO2, HCO+), and is driving an H2 molecular outflow that is mostly traced by low- J, v = 0 transitions. Moreover, H2 0-0 S(1) uncollimated emission is also detected down to 2″-3″ (~650–1000 au) from the source, tracing a cold (T=200–400 K), less dense, and poorly collimated molecular wind. Two H2 components (warm, T =300–1000 K, and hot, T =1000–3500 K) are detected along the jet and outflow. The atomic jet ([Fe II] at 26 µm) is detected down to ~130 au from the source, whereas the lack of H2 emission (at 17 µm) close to the source is likely due to the large visual extinction (AV > 80 mag). Dust-continuum emission is detected at the terminal BSs and in the blue- and redshifted jet, and is likely attributable to dust lifted from the disc. Conclusions. The jet shows an onion-like structure, with layers of different size, velocity, temperature, and chemical composition. Moreover, moving from the inner jet to the outer BSs, different physical, kinematic, and excitation conditions for both molecular and atomic gas are observed. The mass-flux rate and momentum of the jet, as well as the momentum flux of the warm H2 component, are up to one order of magnitude higher than those inferred from the atomic jet component. Our findings indicate that the warm H2 red component is the main driver of the outflow, that is to say it is the most significant dynamical component of the jet, in contrast to jets from more evolved YSOs, where the atomic component is dominant. [ABSTRACT FROM AUTHOR]

Published

2024

25. JOYS: Disentangling the warm and cold material in the high-mass IRAS 23385+6053 cluster (Corrigendum)

Author

Gieser, C., primary, Beuther, H., additional, van Dishoeck, E. F., additional, Francis, L., additional, van Gelder, M. L., additional, Tychoniec, L., additional, Kavanagh, P. J., additional, Perotti, G., additional, Caratti o Garatti, A., additional, Ray, T. P., additional, Klaassen, P., additional, Justtanont, K., additional, Linnartz, H., additional, Rocha, W. R. M., additional, Slavicinska, K., additional, Colina, L., additional, Güdel, M., additional, Henning, Th., additional, Lagage, P.-O., additional, Östlin, G., additional, Vandenbussche, B., additional, Waelkens, C., additional, and Wright, G., additional

Published

2024

26. JOYS : MIRI/MRS spectroscopy of gas-phase molecules from the high-mass star-forming region IRAS 23385+6053

Author

Francis, L., van Gelder, M. L., van Dishoeck, E. F., Gieser, C., Beuther, H., Tychoniec, L., Perotti, G., Garatti, A. Caratti O., Kavanagh, P. J., Ray, T., Klaassen, P., Justtanont, K., Linnartz, H., Rocha, W. R. M., Slavicinska, K., Güdel, M., Henning, T., Lagage, P. -O., Östlin, Göran, Francis, L., van Gelder, M. L., van Dishoeck, E. F., Gieser, C., Beuther, H., Tychoniec, L., Perotti, G., Garatti, A. Caratti O., Kavanagh, P. J., Ray, T., Klaassen, P., Justtanont, K., Linnartz, H., Rocha, W. R. M., Slavicinska, K., Güdel, M., Henning, T., Lagage, P. -O., and Östlin, Göran

Abstract

Context. Space-based mid-infrared (IR) spectroscopy is a powerful tool for the characterization of important star formation tracers of warm gas which are unobservable from the ground. The previous mid-IR spectra of bright high-mass protostars with the Infrared Space Observatory (ISO) in the hot-core phase typically show strong absorption features from molecules such as CO2, C2H2, and HCN. However, little is known about their fainter counterparts at earlier stages. Aims. We aim to characterize the gas-phase molecular features in James Webb Space Telescope Mid-Infrared Instrument Medium Resolution Spectrometer (MIRI/MRS) spectra of the young and clustered high-mass star-forming region IRAS 23385+6053. Methods. Spectra were extracted from several locations in the MIRI/MRS field of view, targeting two mid-IR sources tracing embedded massive protostars as well as three H2 bright outflow knots at distances of >8000 au from the multiple. Molecular features in the spectra were fit with local thermodynamic equilibrium (LTE) slab models, with their caveats discussed in detail. Results. Rich molecular spectra with emission from CO, H2, HD, H2O, C2H2, HCN, CO2, and OH are detected towards the two mid-IR sources. However, only CO and OH are seen towards the brightest H2 knot positions, suggesting that the majority of the observed species are associated with disks or hot core regions rather than outflows or shocks. The LTE model fits to 12CO2, C2H2, HCN emission suggest warm 120–200 K emission arising from a disk surface around one or both protostars. The abundances of CO2 and C2H2 of ~10−7 are consistent with previous observations of high-mass protostars. Weak ~500 K H2O emission at ~6–7 µm is detected towards one mid-IR source, whereas 250–1050 K H2O absorption is found in the other. The H2O absorption may occur in the disk atmosphere due to strong accretion-heating of the midplane, or in a disk wind viewed at an ideal angle for absorption. CO emission may originate in the h

Published

2024

27. JOYS+: The link between the ice and gas of complex organic molecules: Comparing JWST and ALMA data of two low-mass protostars.

Author

Chen, Y., Rocha, W. R. M., van Dishoeck, E. F., van Gelder, M. L., Nazari, P., Slavicinska, K., Francis, L., Tabone, B., Ressler, M. E., Klaassen, P. D., Beuther, H., Boogert, A. C. A., Gieser, C., Kavanagh, P. J., Perotti, G., Le Gouellec, V. J. M., Majumdar, L., Güdel, M., and Henning, Th.

Subjects

THERMAL equilibrium, LOW mass stars, STAR formation, SPACE telescopes, INFRARED spectra, PROTOSTARS

Abstract

Context. A rich inventory of complex organic molecules (COMs) has been observed in high abundances in the gas phase toward Class 0 protostars. It has been suggested that these molecules are formed in ices and sublimate in the warm inner envelope close to the protostar. However, only the most abundant COM, methanol (CH3OH), had been firmly detected in ices before the era of the James Webb Space Telescope (JWST). Now, it is possible to detect the interstellar ices of other COMs and constrain their ice column densities quantitatively. Aims. We aim to determine the column densities of several oxygen-bearing COMs (O-COMs) in both gas and ice for two low-mass protostellar sources, NGC 1333 IRAS 2A (hereafter IRAS 2A) and B1-c, as case studies in our JWST Observations of Young proto-Stars (JOYS+) program. By comparing the column density ratios with respect to CH3OH between both phases measured in the same sources, we can probe the evolution of COMs from ice to gas in the early stages of star formation. Methods. The column densities of COMs in gas and ice were derived by fitting the spectra observed by the Atacama Large Millimeter/submillimeter Array (ALMA) and the JWST/Mid-InfraRed Instrument-Medium Resolution Spectroscopy (MIRI-MRS), respectively. The gas-phase emission lines were fit using local thermal equilibrium models, and the ice absorption bands were fit by matching the infrared spectra measured in laboratories. The column density ratios of four O-COMs (CH3CHO, C2H5OH, CH3OCH3, and CH3OCHO) with respect to CH3OH were compared between ice and gas in IRAS 2A and B1-c. Results. We were able to fit the fingerprint range of COM ices between 6.8 and 8.8 μm in the JWST/MIRI-MRS spectra of B1-c using similar components to the ones recently used for NGC 1333 IRAS 2A. We claim detection of CH4, OCN−, HCOO−, HCOOH, CH3CHO, C2H5OH, CH3OCH3, CH3OCHO, and CH3COCH3 in B1-c, and upper limits have been estimated for SO2, CH3COOH, and CH3CN. The total abundance of O-COM ices is constrained to be 15% with respect to H2O ice, 80% of which is dominated by CH3OH. The comparison of O-COM ratios with respect to CH3OH between ice and gas shows two different cases. On the one hand, the column density ratios of CH3OCHO and CH3OCH3 match well between the two phases, which may be attributed to a direct inheritance from ice to gas or strong chemical links with CH3OH. On the other hand, the ice ratios of CH3CHO and C2H5OH with respect to CH3OH are higher than the gas ratios by 1–2 orders of magnitude. This difference can be explained by gas-phase reprocessing following sublimation, or different spatial distributions of COMs in the envelope, which is an observational effect resulting from ALMA and JWST tracing different components in a protostellar system. Conclusions. The firm detection of COM ices other than CH3OH is reported in another well-studied low-mass protostar, B1-c, following the recent detection in NGC 1333 IRAS 2A. The column density ratios of four O-COMs with respect to CH3OH show both similarities and differences between gas and ice. Although the straightforward explanations would be the direct inheritance from ice to gas and the gas-phase reprocessing, respectively, other possibilities such as different spatial distributions of molecules cannot be excluded. [ABSTRACT FROM AUTHOR]

Published

2024

28. JWST Observations of Young protoStars (JOYS+): Detecting icy complex organic molecules and ions

Author

Rocha, W. R. M., primary, van Dishoeck, E. F., additional, Ressler, M. E., additional, van Gelder, M. L., additional, Slavicinska, K., additional, Brunken, N. G. C., additional, Linnartz, H., additional, Ray, T. P., additional, Beuther, H., additional, Caratti o Garatti, A., additional, Geers, V., additional, Kavanagh, P. J., additional, Klaassen, P. D., additional, Justtanont, K., additional, Chen, Y., additional, Francis, L., additional, Gieser, C., additional, Perotti, G., additional, Tychoniec, Ł., additional, Barsony, M., additional, Majumdar, L., additional, le Gouellec, V. J. M., additional, Chu, L. E. U., additional, Lew, B. W. P., additional, Henning, Th., additional, and Wright, G., additional

Published

2024

29. JOYS+: Mid-infrared detection of gas-phase SO2 emission in a low-mass protostar

Author

van Gelder, M. L., primary, Ressler, M. E., additional, van Dishoeck, E. F., additional, Nazari, P., additional, Tabone, B., additional, Black, J. H., additional, Tychoniec, Ł., additional, Francis, L., additional, Barsony, M., additional, Beuther, H., additional, Caratti o Garatti, A., additional, Chen, Y., additional, Gieser, C., additional, le Gouellec, V. J. M., additional, Kavanagh, P. J., additional, Klaassen, P. D., additional, Lew, B. W. P., additional, Linnartz, H., additional, Majumdar, L., additional, Perotti, G., additional, and Rocha, W. R. M., additional

Published

2024

30. A Thermistor Based Method for Measuring Thermal Conductivity and Thermal Diffusivity of Moist Food Materials at High Temperatures

Author

Van Gelder, M. F., primary and Diehl, K. C., additional

Published

2021

31. JOYS: Disentangling the warm and cold material in the high-mass IRAS 23385+6053 cluster

Author

Gieser, C., primary, Beuther, H., additional, van Dishoeck, E. F., additional, Francis, L., additional, van Gelder, M. L., additional, Tychoniec, L., additional, Kavanagh, P. J., additional, Perotti, G., additional, Caratti o Garatti, A., additional, Ray, T. P., additional, Klaassen, P., additional, Justtanont, K., additional, Linnartz, H., additional, Rocha, W. R. M., additional, Slavicinska, K., additional, Colina, L., additional, Güdel, M., additional, Henning, Th., additional, Lagage, P.-O., additional, Östlin, G., additional, Vandenbussche, B., additional, Waelkens, C., additional, and Wright, G., additional

Published

2023

32. CoCCoA: Complex Chemistry in hot Cores with ALMA

Author

Chen, Y., primary, van Gelder, M. L., additional, Nazari, P., additional, Brogan, C. L., additional, van Dishoeck, E. F., additional, Linnartz, H., additional, Jørgensen, J. K., additional, Hunter, T. R., additional, Wilkins, O. H., additional, Blake, G. A., additional, Caselli, P., additional, Chuang, K.-J., additional, Codella, C., additional, Cooke, I., additional, Drozdovskaya, M. N., additional, Garrod, R. T., additional, Ioppolo, S., additional, Jin, M., additional, Kulterer, B. M., additional, Ligterink, N. F. W., additional, Lipnicky, A., additional, Loomis, R., additional, Rachid, M. G., additional, Spezzano, S., additional, and McGuire, B. A., additional

Published

2023

33. JOYS+: Mid-infrared detection of gas-phase SO2 emission in a low-mass protostar: The case of NGC 1333 IRAS 2A: Hot core or accretion shock?

Author

van Gelder, M. L., Ressler, M. E., van Dishoeck, E. F., Nazari, P., Tabone, B., Black, J. H., Tychoniec, Ł., Francis, L., Barsony, M., Beuther, H., Caratti o Garatti, A., Chen, Y., Gieser, C., le Gouellec, V. J. M., Kavanagh, P. J., Klaassen, P. D., Lew, B. W. P., Linnartz, H., Majumdar, L., and Perotti, G.

Subjects

*STELLAR evolution, *LOCAL thermodynamic equilibrium, *SPECTRAL sensitivity, *BRIGHTNESS temperature, *SPACE telescopes

Abstract

Context. Thanks to the Mid-InfraRed Instrument (MIRI) on the James Webb Space Telescope (JWST), our ability to observe the star formation process in the infrared has greatly improved. Due to its unprecedented spatial and spectral resolution and sensitivity in the mid-infrared, JWST/MIRI can see through highly extincted protostellar envelopes and probe the warm inner regions. An abundant molecule in these warm inner regions is SO2, which is a common tracer of both outflow and accretion shocks as well as hot core chemistry. Aims. This paper presents the first mid-infrared detection of gaseous SO2 emission in an embedded low-mass protostellar system rich in complex molecules and aims to determine the physical origin of the SO2 emission. Methods. JWST/MIRI observations taken with the Medium Resolution Spectrometer (MRS) of the low-mass protostellar binary NGC 1333 IRAS 2A in the JWST Observations of Young protoStars (JOYS+) program are presented. The observations reveal emission from the SO2v3 asymmetric stretching mode at 7.35 µm. Using simple slab models and assuming local thermodynamic equilibrium (LTE), we derived the rotational temperature and total number of SO2 molecules. We then compared the results to those derived from high-angular-resolution SO2 data on the same scales (~50–100 au) obtained with the Atacama Large Millimeter/submillimeter Array (ALMA). Results. The SO2 emission from the v3 band is predominantly located on ~50–100 au scales around the mid-infrared continuum peak of the main component of the binary, IRAS 2A1. A rotational temperature of 92 ± 8 K is derived from the v3 lines. This is in good agreement with the rotational temperature derived from pure rotational lines in the vibrational ground state (i.e., v = 0) with ALMA (104 ± 5 K), which are extended over similar scales. However, the emission of the v3 lines in the MIRI-MRS spectrum is not in LTE given that the total number of molecules predicted by a LTE model is found to be a factor of 2 × 104 higher than what is derived for the v = 0 state from the ALMA data. This difference can be explained by a vibrational temperature that is ~100 K higher than the derived rotational temperature of the v = 0 state: Tvib ~ 200 K versus Trot = 104 ± 5 K. The brightness temperature derived from the continuum around the v3 band (~7.35 µm) of SO2 is ~180 K, which confirms that the v3 = 1 level is not collisionally populated but rather infrared-pumped by scattered radiation. This is also consistent with the non-detection of the v2 bending mode at 18–20 µm. The similar rotational temperature derived from the MIRI-MRS and ALMA data implies that they are in fact tracing the same molecular gas. The inferred abundance of SO2 , determined using the LTE fit to the lines of the vibrational ground state in the ALMA data, is 1.0 ± 0.3 × 10−8 with respect to H2, which is on the lower side compared to interstellar and cometary ices (10−8−10−7). Conclusions. Given the rotational temperature, the extent of the emission (~100 au in radius), and the narrow line widths in the ALMA data (~3.5 km s−1), the SO2 in IRAS 2A likely originates from ice sublimation in the central hot core around the protostar rather than from an accretion shock at the disk–envelope boundary. Furthermore, this paper shows the importance of radiative pumping and of combining JWST observations with those from millimeter interferometers such as ALMA to probe the physics on disk scales and to infer molecular abundances. [ABSTRACT FROM AUTHOR]

Published

2024

34. Controlling a human parainfluenza virus-3 outbreak in a haematology ward in a tertiary hospital

Author

Iglόi, Z., van Loo, I. H. M., Demandt, A. M. P., Franssen, K., Jonges, M., van Gelder, M., Erkens-Hulshof, S., van Alphen, L. B., MUMC+: DA MMI Staf (9), Med Microbiol, Infect Dis & Infect Prev, MUMC+: DA MMI Infectieserologie (9), MUMC+: DA MMI AIOS (9), Interne Geneeskunde, MUMC+: MA Hematologie (9), RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, RS: CAPHRI - R4 - Health Inequities and Societal Participation, Medical Microbiology and Infection Prevention, and AII - Infectious diseases

Subjects

Microbiology (medical), Adult, Paramyxoviridae Infections, Human parainfluenza 3, Outbreak, The Netherlands, General Medicine, Hematology, CELL TRANSPLANT RECIPIENTS, Disease Outbreaks, Parainfluenza Virus 3, Human, Tertiary Care Centers, RESPIRATORY-SYNCYTIAL-VIRUS, TYPE-3, Infectious Diseases, INFECTION, NOSOCOMIAL OUTBREAK, Nosocomial infections, Humans, EPIDEMIOLOGY, Pathology, Molecular, CROATIA, REAL-TIME PCR, Haematology, Retrospective Studies

Abstract

Background: The human parainfluenza virus 3 (HPIV-3) outbreak at the haemato-oncology ward of the Maastricht University Medical Centre in the summer of 2016. Aim: To describe an effective strategy to control the largest reported HPIV-3 outbreak at an adult haematology–oncology ward in the Netherlands by implementing infection control measures and molecular epidemiology investigation. Methods: Clinical, patient and diagnostic data were both pro- and retrospectively collected. HPIV-3 real-time polymerase chain reaction (HPIV-3 RT-PCR) was validated using oropharyngeal rinse samples. Screening of all new and admitted patients was implemented to identify asymptomatic infection or prolonged shedding of HPIV-3 allowing cohort isolation. Findings: The HPIV-3 outbreak occurred between 9 July and 28 September 2016 and affected 53 patients. HPIV-3 RT-PCR on oropharyngeal rinse samples demonstrated an up to 10-fold higher sensitivity compared with pharyngeal swabs. Monitoring showed that at first positive PCR, 20 patients (38%) were asymptomatic (of which 11 remained asymptomatic) and the average duration of shedding was 14 days (range 1–58). Asymptomatic patients had lower viral load, shorter period of viral shedding (≤14 days) and were mostly immune-competent oncology patients. The outbreak was under control five weeks after implementation of screening of asymptomatic patients. Conclusion: Implementation of a sensitive screening method identified both symptomatic and asymptomatic patients which had lower viral loads and allowed early cohort isolation. This is especially important in a ward that combines patients with varying immune status, because both immunocompromised and immune-competent patients are likely to spread the HPIV-3 virus, either through prolonged shedding or through asymptomatic course of disease.

Published

2022

35. JWST Observations of Young protoStars (JOYS). Outflows and accretion in the high-mass star-forming region IRAS 23385+6053

Author

Beuther, H., primary, van Dishoeck, E. F., additional, Tychoniec, L., additional, Gieser, C., additional, Kavanagh, P. J., additional, Perotti, G., additional, van Gelder, M. L., additional, Klaassen, P., additional, Caratti o Garatti, A., additional, Francis, L., additional, Rocha, W. R. M., additional, Slavicinska, K., additional, Ray, T., additional, Justtanont, K., additional, Linnartz, H., additional, Waelkens, C., additional, Colina, L., additional, Greve, T., additional, Güdel, M., additional, Henning, T., additional, Lagage, P.-O., additional, Vandenbussche, B., additional, Östlin, G., additional, and Wright, G., additional

Published

2023

36. JWST Observations of Young protoStars (JOYS) Outflows and accretion in the high-mass star-forming region IRAS 23385+6053

Author

Beuther, H., van Dishoeck, E. F., Tychoniec, L., Gieser, C., Kavanagh, P. J., Perotti, G., van Gelder, M. L., Klaassen, P., Garatti, A. Caratti o, Francis, L., Rocha, W. R. M., Slavicinska, K., Ray, T., Justtanont, K., Linnartz, H., Waelkens, C., Colina, L., Greve, T., Guedel, M., Henning, T., Lagage, P-O, Vandenbussche, B., Östlin, Göran, Wright, G., Beuther, H., van Dishoeck, E. F., Tychoniec, L., Gieser, C., Kavanagh, P. J., Perotti, G., van Gelder, M. L., Klaassen, P., Garatti, A. Caratti o, Francis, L., Rocha, W. R. M., Slavicinska, K., Ray, T., Justtanont, K., Linnartz, H., Waelkens, C., Colina, L., Greve, T., Guedel, M., Henning, T., Lagage, P-O, Vandenbussche, B., Östlin, Göran, and Wright, G.

Abstract

Context. Understanding the earliest stages of star formation, and setting it in the context of the general cycle of matter in the interstellar medium, is a central aspect of research with the James Webb Space Telescope (JWST). Aims. The JWST program JOYS (JWST Observations of Young protoStars) aims to characterize the physical and chemical properties of young high- and low-mass star-forming regions, in particular the unique mid-infrared diagnostics of the warmer gas and solid-state components. We present early results from the high-mass star formation region IRAS 23385+6053. Methods. The JOYS program uses the Mid-Infrared Instrument (MIRI) Medium Resolution Spectrometer (MRS) with its integral field unit (IFU) to investigate a sample of high- and low-mass star-forming protostellar systems. Results. The full 5-28 mu m MIRI MRS spectrum of IRAS 23385+6053 shows a plethora of interesting features. While the general spectrum is typical for an embedded protostar, we see many atomic and molecular gas lines boosted by the higher spectral resolution and sensitivity compared to previous space missions. Furthermore, ice and dust absorption features are also present. Here, we focus on the continuum emission, outflow tracers such as the H-2(0-0)S(7), [FeII](F-4(9/2)-D-6(9/2)), and [NeII](P-2(1/2)-P-2(3/2)) lines, and the potential accretion tracer Humphreys alpha HI(7-6). The short-wavelength MIRI data resolve two continuum sources, A and B; mid-infrared source A is associated with the main millimeter continuum peak. The combination of mid-infrared and millimeter data reveals a young cluster in the making. Combining the mid-infrared outflow tracers H-2, [FeII], and [NeII] with millimeter SiO data reveals a complex interplay of at least three molecular outflows driven by protostars in the forming cluster. Furthermore, the Humphreys alpha line is detected at a 3-4 sigma level toward the mid-infrared sources A and B. One can roughly estimate both accretion luminosities and corresp

Published

2023

37. Possibilities, patience, and perserverance: A preliminary analysis of the needs and experiences of ten older adults regarding their use of digital health technology

Author

Sturm, J., Dierick, A., Christianen, M., van Gelder, M., Wouters, E.J.M., Sturm, J., Dierick, A., Christianen, M., van Gelder, M., and Wouters, E.J.M.

Abstract

The COVID-19 pandemic created the need to use digital health resources (DR), as they sometimes were the only option to receive healthcare or social interaction. The aim of this research is to provide insight into the experiences during the lockdown of older people using DR for health in general and the points of improvement they see. A qualitative study was carried out using semi-structured interviews with older persons by telephone. A total of 10 older adults participated, with a median age of 78 years, the majority having a chronic disease. The most important themes for motivation to use health-related DR were ‘urgency’ and ‘usefulness’. Experiences with DR were related to the themes ‘human contact’ and ‘communication’, which were experienced by respondents as facilitated by DR, and ‘time and energy’, which was two-sided. Additionally, most older persons worried about accessibility of DR by all older persons and the support needed. In conclusion, older persons are convinced of the urgency and the usefulness of digital technology for health and healthcare. Time and energy constraints can be alleviated by using DR on the one hand, but this can also be challenging if older persons are less digitally skilled or lack digital literacy. Good and sustained human support is therefore mandatory.

Published

2023

38. JOYS+: mid-infrared detection of gas-phase SO$_2$ emission in a low-mass protostar. The case of NGC 1333 IRAS2A: hot core or accretion shock?

Author

van Gelder, M. L., Ressler, M. E., van Dishoeck, E. F., Nazari, P., Tabone, B., Black, J. H., Tychoniec, Ł., Francis, L., Barsony, M., Beuther, H., Garatti, A. Caratti o, Chen, Y., Gieser, C., Gouellec, V. J. M. le, Kavanagh, P. J., Klaassen, P. D., Lew, B. W. P., Linnartz, H., Majumdar, L., Perotti, G., Rocha, W. R. M., van Gelder, M. L., Ressler, M. E., van Dishoeck, E. F., Nazari, P., Tabone, B., Black, J. H., Tychoniec, Ł., Francis, L., Barsony, M., Beuther, H., Garatti, A. Caratti o, Chen, Y., Gieser, C., Gouellec, V. J. M. le, Kavanagh, P. J., Klaassen, P. D., Lew, B. W. P., Linnartz, H., Majumdar, L., Perotti, G., and Rocha, W. R. M.

Abstract

JWST/MIRI has sharpened our infrared eyes toward the star formation process. This paper presents the first mid-infrared detection of gaseous SO$_2$ emission in an embedded low-mass protostellar system. MIRI-MRS observations of the low-mass protostellar binary NGC 1333 IRAS2A are presented from the JWST Observations of Young protoStars (JOYS+) program, revealing emission from the SO$_2~\nu_3$ asymmetric stretching mode at 7.35 micron. The results are compared to those derived from high-angular resolution SO$_2$ data obtained with ALMA. The SO$_2$ emission from the $\nu_3$ band is predominantly located on $\sim50-100$ au scales around the main component of the binary, IRAS2A1. A rotational temperature of $92\pm8$ K is derived from the $\nu_3$ lines. This is in good agreement with the rotational temperature derived from pure rotational lines in the vibrational ground state (i.e., $\nu=0$) with ALMA ($104\pm5$ K). However, the emission of the $\nu_3$ lines is not in LTE given that the total number of molecules predicted by a LTE model is found to be a factor $2\times10^4$ higher than what is derived for the $\nu=0$ state. This difference can be explained by a vibrational temperature that is $\sim100$ K higher than the derived rotational temperature of the $\nu=0$ state. The brightness temperature derived from the continuum around the $\nu_3$ band of SO$_2$ is $\sim180$ K, which confirms that the $\nu_3=1$ level is not collisionally populated but rather infrared pumped by scattered radiation. This is also consistent with the non-detection of the $\nu_2$ bending mode at 18-20 micron. Given the rotational temperature, the extent of the emission ($\sim100$ au in radius), and the narrow line widths in the ALMA data (3.5 km/s), the SO$_2$ in IRAS2A likely originates from ice sublimation in the central hot core around the protostar rather than from an accretion shock at the disk-envelope boundary., Comment: 19 pages, 17 figures, accepted for publication in A&A, abstract abbreviated

Published

2023

39. CoCCoA: Complex Chemistry in hot Cores with ALMA:Selected oxygen-bearing species

Author

Chen, Y., Van Gelder, M. L., Nazari, P., Brogan, C. L., Van Dishoeck, E. F., Linnartz, H., Jørgensen, J. K., Hunter, T. R., Wilkins, O. H., Blake, G. A., Caselli, P., Chuang, K.-j., Codella, C., Cooke, I., Drozdovskaya, M. N., Garrod, R. T., Ioppolo, S., Jin, M., Kulterer, B. M., Ligterink, N. F. W., Lipnicky, A., Loomis, R., Rachid, M. G., Spezzano, S., Mcguire, B. A., Chen, Y., Van Gelder, M. L., Nazari, P., Brogan, C. L., Van Dishoeck, E. F., Linnartz, H., Jørgensen, J. K., Hunter, T. R., Wilkins, O. H., Blake, G. A., Caselli, P., Chuang, K.-j., Codella, C., Cooke, I., Drozdovskaya, M. N., Garrod, R. T., Ioppolo, S., Jin, M., Kulterer, B. M., Ligterink, N. F. W., Lipnicky, A., Loomis, R., Rachid, M. G., Spezzano, S., and Mcguire, B. A.

Published

2023

40. The diverse chemistry of protoplanetary disks as revealed by JWST

Author

van Dishoeck, Ewine F., primary, Grant, S., additional, Tabone, B., additional, van Gelder, M., additional, Francis, L., additional, Tychoniec, L., additional, Bettoni, G., additional, Arabhavi, A. M., additional, Gasman, D., additional, Nazari, P., additional, Vlasblom, M., additional, Kavanagh, P., additional, Christiaens, V., additional, Klaassen, P., additional, Beuther, H., additional, Henning, Th., additional, and Kamp, I., additional

Published

2023

41. Street Politics

Author

van Gelder, M., van den Heuvel, D., Cultural Heritage and Identity, and ASH (FGw)

Abstract

This chapter discusses different types of political manifestations that took place in the street and the different actors that engaged in street politics. It takes us through the streets and squares of diverse cities such as Naples and Delft, Madrid and Istanbul over a period of roughly three hundred years. The presence of ‘ordinary people’ as onlookers was indispensable to give official street politics, such as executions, processions and rituals, their legitimacy, thereby validating the authority of those in charge. The term ‘street politics’ is commonly associated with demonstrations and protest actions in the street, but that is too narrow a definition. Politics has never exclusively taken place inside palaces, council halls and government buildings; it has also happened in city streets, squares, marketplaces and alleys. Popular street politics, such as demonstrations and revolts, did not simply express resistance against the state, but rather dissatisfaction with the limitations of the state and its representatives.

Published

2023

42. Risk factors for treatment failure after allogeneic transplantation of patients with CLL: a report from the European Society for Blood and Marrow Transplantation

Author

Schetelig, J, de Wreede, L C, van Gelder, M, Andersen, N S, Moreno, C, Vitek, A, Karas, M, Michallet, M, Machaczka, M, Gramatzki, M, Beelen, D, Finke, J, Delgado, J, Volin, L, Passweg, J, Dreger, P, Henseler, A, van Biezen, A, Bornhäuser, M, Schönland, S O, and Kröger, N

Published

2017

43. Long-term survival of patients with CLL after allogeneic transplantation: a report from the European Society for Blood and Marrow Transplantation

Author

van Gelder, M, de Wreede, L C, Bornhäuser, M, Niederwieser, D, Karas, M, Anderson, N S, Gramatzki, M, Dreger, P, Michallet, M, Petersen, E, Bunjes, D, Potter, M, Beelen, D, Cornelissen, J J, Yakoub-Agha, I, Russell, N H, Finke, J, Schoemans, H, Vitek, A, Urbano-Ispízua, Á, Blaise, D, Volin, L, Chevallier, P, Caballero, D, Putter, H, van Biezen, A, Henseler, A, Schönland, S, Kröger, N, and Schetelig, J

Published

2017

44. N-bearing complex organics toward high-mass protostars

Author

Nazari, P., primary, Meijerhof, J. D., additional, van Gelder, M. L., additional, Ahmadi, A., additional, van Dishoeck, E. F., additional, Tabone, B., additional, Langeroodi, D., additional, Ligterink, N. F. W., additional, Jaspers, J., additional, Beltrán, M. T., additional, Fuller, G. A., additional, Sánchez-Monge, Á., additional, and Schilke, P., additional

Published

2022

45. Methanol deuteration in high-mass protostars

Author

van Gelder, M. L., primary, Jaspers, J., additional, Nazari, P., additional, Ahmadi, A., additional, van Dishoeck, E. F., additional, Beltrán, M. T., additional, Fuller, G. A., additional, Sánchez-Monge, Á., additional, and Schilke, P., additional

Published

2022

46. Efficacy of cisplatin-based immunochemotherapy plus alloSCT in high-risk chronic lymphocytic leukemia: final results of a prospective multicenter phase 2 HOVON study

Author

van Gelder, M, van Oers, M H, Alemayehu, W G, Abrahamse-Testroote, M C J, Cornelissen, J J, Chamuleau, M E, Zachée, P, Hoogendoorn, M, Nijland, M, Petersen, E J, Beeker, A, Timmers, G-J, Verdonck, L, Westerman, M, de Weerdt, O, and Kater, A P

Published

2016

47. Importance of source structure on complex organics emission

Author

Nazari, P., primary, Tabone, B., additional, Rosotti, G. P., additional, van Gelder, M. L., additional, Meshaka, R., additional, and van Dishoeck, E. F., additional

Published

2022

48. Importance of source structure on complex organics emission II. Do disks explain lack of methanol emission from low-mass protostars?

Author

van Gelder, M. L., Nazari, P., Tabone, B., Ahmadi, A., van Dishoeck, E. F., Beltran, M. T., Fuller, G. A., Sakai, N., Sanchez-Monge, A., Schilke, P., Yang, Y-L, Zhang, Y., van Gelder, M. L., Nazari, P., Tabone, B., Ahmadi, A., van Dishoeck, E. F., Beltran, M. T., Fuller, G. A., Sakai, N., Sanchez-Monge, A., Schilke, P., Yang, Y-L, and Zhang, Y.

Abstract

Context. The protostellar stage is known to be the richest star formation phase in emission from gaseous complex organic molecules. However, some protostellar systems show little or no millimetre (mm) line emission of such species. This can be interpreted as a low abundance of complex organic molecules. Alternatively, complex species could be present in the system, but are not seen in the gas. Aims. The goal is to investigate the second hypothesis for methanol as the most abundant complex organic molecule in protostellar systems. This work aims to determine how effective dust optical depth is in hiding methanol in the gas, and whether methanol can mainly reside in the ice due to the presence of a disk that lowers the temperatures. Hence, we attempt to answer the question whether the presence of a disk and optically thick dust reduce methanol emission even if methanol and other complex species are abundant in the ices and gas. Methods. Using the radiative transfer code RADMC-3D, we calculated methanol emission lines from an envelope-only model and from an envelope-plus-disk model. We compared the results with each other and with the observations. Methanol gas and ice abundances were parametrised inside and outside of the snow surfaces based on values from observations. Both models included either dust grains with low mm opacity or high mm opacity, and their physical parameters such as envelope mass and disk radius were varied. Results. Methanol emission from the envelope-only model is always stronger than from the envelope-plus-disk model by at least a factor similar to 2 as long as the disk radius is larger than similar to 30 au (for L = 8 L-circle dot). In most cases, this is due to lower temperatures (disk shadowing), which causes the smaller amount of warm (greater than or similar to 70 K) methanol inside the snow surface of the envelope-plus-disk model. The intensities drop by more than an order of magnitude for models including high mm opacity dust grains and d

Published

2022

49. Thrombotic and bleeding complications in patients with chronic lymphocytic leukemia and severe COVID-19: a study of ERIC, the European Research Initiative on CLL

Author

Antic, D., Milic, N., Chatzikonstantinou, T., Scarfo, L., Otasevic, V., Rajovic, N., Allsup, D., Alonso Cabrero, A., Andres, M., Baile Gonzales, M., Capasso, A., Collado, R., Cordoba, R., Cuellar-Garcia, C., Correa, J. G., De Paoli, L., De Paolis, M. R., Del Poeta, G., Dimou, M., Doubek, M., Efstathopoulou, M., El-Ashwah, S., Enrico, A., Espinet, B., Farina, L., Ferrari, A., Foglietta, M., Lopez-Garcia, A., Garcia-Marco, J. A., Garcia-Serra, R., Gentile, Marino, Gimeno, E., da Silva, M. G., Gutwein, O., Hakobyan, Y. K., Herishanu, Y., Hernandez-Rivas, J. A., Herold, T., Itchaki, G., Jaksic, O., Janssens, A., Kalashnikova, O. B., Kalicinska, E., Kater, A. P., Kersting, S., Koren-Michowitz, M., Labrador, J., Lad, D., Laurenti, Luca, Fresa, Alberto, Levin, M. -D., Mayor Bastida, C., Malerba, L., Marasca, R., Marchetti, M., Marquet, J., Mihaljevic, B., Milosevic, I., Miras, F., Morawska, M., Motta, M., Munir, T., Murru, R., Nunes, R., Olivieri, J., Pavlovsky, M. A., Piskunova, I., Popov, V. M., Quaglia, F. M., Quaresmini, G., Reda, G., Rigolin, G. M., Shrestha, A., Simkovic, M., Smirnova, S., Spacek, M., Sportoletti, P., Stanca, O., Stavroyianni, N., Te Raa, D., Tomic, K., Tonino, S., Trentin, L., Van Der Spek, E., van Gelder, M., Varettoni, M., Visentin, A., Vitale, C., Vukovic, Vladimir, Wasik-Szczepanek, E., Wrobel, T., Segundo, L. Y. S., Yassin, M., Coscia, M., Rambaldi, A., Montserrat, E., Foa, Robin, Cuneo, A., Carrier, M., Ghia, P., Stamatopoulos, K., Gentile M., Laurenti L. (ORCID:0000-0002-8327-1396), Fresa A., Vukovic V. (ORCID:0000-0002-9561-7825), Foa R., Antic, D., Milic, N., Chatzikonstantinou, T., Scarfo, L., Otasevic, V., Rajovic, N., Allsup, D., Alonso Cabrero, A., Andres, M., Baile Gonzales, M., Capasso, A., Collado, R., Cordoba, R., Cuellar-Garcia, C., Correa, J. G., De Paoli, L., De Paolis, M. R., Del Poeta, G., Dimou, M., Doubek, M., Efstathopoulou, M., El-Ashwah, S., Enrico, A., Espinet, B., Farina, L., Ferrari, A., Foglietta, M., Lopez-Garcia, A., Garcia-Marco, J. A., Garcia-Serra, R., Gentile, Marino, Gimeno, E., da Silva, M. G., Gutwein, O., Hakobyan, Y. K., Herishanu, Y., Hernandez-Rivas, J. A., Herold, T., Itchaki, G., Jaksic, O., Janssens, A., Kalashnikova, O. B., Kalicinska, E., Kater, A. P., Kersting, S., Koren-Michowitz, M., Labrador, J., Lad, D., Laurenti, Luca, Fresa, Alberto, Levin, M. -D., Mayor Bastida, C., Malerba, L., Marasca, R., Marchetti, M., Marquet, J., Mihaljevic, B., Milosevic, I., Miras, F., Morawska, M., Motta, M., Munir, T., Murru, R., Nunes, R., Olivieri, J., Pavlovsky, M. A., Piskunova, I., Popov, V. M., Quaglia, F. M., Quaresmini, G., Reda, G., Rigolin, G. M., Shrestha, A., Simkovic, M., Smirnova, S., Spacek, M., Sportoletti, P., Stanca, O., Stavroyianni, N., Te Raa, D., Tomic, K., Tonino, S., Trentin, L., Van Der Spek, E., van Gelder, M., Varettoni, M., Visentin, A., Vitale, C., Vukovic, Vladimir, Wasik-Szczepanek, E., Wrobel, T., Segundo, L. Y. S., Yassin, M., Coscia, M., Rambaldi, A., Montserrat, E., Foa, Robin, Cuneo, A., Carrier, M., Ghia, P., Stamatopoulos, K., Gentile M., Laurenti L. (ORCID:0000-0002-8327-1396), Fresa A., Vukovic V. (ORCID:0000-0002-9561-7825), and Foa R.

Abstract

Background: Patients with chronic lymphocytic leukemia (CLL) may be more susceptible to COVID-19 related poor outcomes, including thrombosis and death, due to the advanced age, the presence of comorbidities, and the disease and treatment-related immune deficiency. The aim of this study was to assess the risk of thrombosis and bleeding in patients with CLL affected by severe COVID-19. Methods: This is a retrospective multicenter study conducted by ERIC, the European Research Initiative on CLL, including patients from 79 centers across 22 countries. Data collection was conducted between April and May 2021. The COVID-19 diagnosis was confirmed by the real-time polymerase chain reaction (RT-PCR) assay for SARS-CoV-2 on nasal or pharyngeal swabs. Severe cases of COVID-19 were defined by hospitalization and the need of oxygen or admission into ICU. Development and type of thrombotic events, presence and severity of bleeding complications were reported during treatment for COVID-19. Bleeding events were classified using ISTH definition. STROBE recommendations were used in order to enhance reporting. Results: A total of 793 patients from 79 centers were included in the study with 593 being hospitalized (74.8%). Among these, 511 were defined as having severe COVID: 162 were admitted to the ICU while 349 received oxygen supplementation outside the ICU. Most patients (90.5%) were receiving thromboprophylaxis. During COVID-19 treatment, 11.1% developed a thromboembolic event, while 5.0% experienced bleeding. Thrombosis developed in 21.6% of patients who were not receiving thromboprophylaxis, in contrast to 10.6% of patients who were on thromboprophylaxis. Bleeding episodes were more frequent in patients receiving intermediate/therapeutic versus prophylactic doses of low-molecular-weight heparin (LWMH) (8.1% vs. 3.8%, respectively) and in elderly. In multivariate analysis, peak D-dimer level and C-reactive protein to albumin ratio were poor prognostic factors for thrombosis occu

Published

2022

50. Wellbeing in line managers during mandatory working from home: How work and personal factors combine

Author

Van Gelder, M., van Veldhoven, M., van de Voorde, K., Van Gelder, M., van Veldhoven, M., and van de Voorde, K.

Abstract

The pandemic, particularly the aspect of forced working from home, has had a major impact on the workforce. Previous studies show that line managers have also experienced severe mental strain during this period. Since it is expected that hybrid working will be more the new normal than the exception in future, this study further examined line managers' work-related wellbeing in terms of engagement and exhaustion. Following the job characteristics model (JCM), we explore the mediating role of meaningful work between workplace innovation before the pandemic and line managers' work-related wellbeing during forced working from home. The underlying idea is that organizations that already adopted workplace innovation practices before the pandemic, give teams and employees more control, thus allowing a more meaningful role for line managers, which positively impacts line managers' work-related wellbeing during the pandemic. In addition, building upon Job Demands-Resources (JD-R) Theory and the role of personal resources therein, we explore digital leadership skills and work–life segmentation preference as moderators between meaningful work and work-related wellbeing. Our findings show that workplace innovation is positively associated with engagement via its effect on meaningful work, but not associated with exhaustion. Second, we found that work–life segmentation preference amplifies the relation between meaningful work and engagement (positive link) as well as exhaustion (negative link). This indicates that line managers with a high work–life segmentation preference who have a low score on meaningful work, experience less engagement and more exhaustion than line managers with a high score on meaningful work when working from home. No support was found for the moderation of digital leadership skills in the relationship between meaningful work, engagement, and exhaustion. Based on these results, we discuss implications for research and we provide practice recommendations.

Published

2022