Your search keyword '"Smoker, J."' showing total 20 results

1. A magnetic massive star has experienced a stellar merger

Author

Frost, A. J., Sana, H., Mahy, L., Wade, G., Barron, J., Bouquin, J. -B. Le, Mérand, A., Schneider, F. R. N., Shenar, T., Barbá, R. H., Bowman, D. M., Fabry, M., Farhang, A., Marchant, P., Morrell, N. I., and Smoker, J. V.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Massive stars (those larger than 8 solar masses at formation) have radiative envelopes that cannot sustain a dynamo, the mechanism that produces magnetic fields in lower-mass stars. Despite this, approximately 7\% of massive stars have observed magnetic fields, the origin of which is debated. We used multi-epoch interferometric and spectroscopic observations to characterize HD 148937, a binary system of two massive stars. We found that only one star is magnetic and that it appears younger than its companion. The system properties and a surrounding bipolar nebula can be reproduced with a model in which two stars merged (in a previous triple system) to produce the magnetic massive star. Our results provide observational evidence that magnetic fields form in at least some massive stars through stellar mergers., Comment: Full paper with supplementary materials. 59 pages, 18 figures

Published

2024

2. The EDIBLES Survey. VIII. Band profile alignment of diffuse interstellar bands

Author

Ebenbichler, A., Smoker, J. V., Lallement, R., Farhang, A., Cox, N. L. J., Joblin, C., van Loon, J. Th., Linnartz, H., Przybilla, N., Ehrenfreund, P., Cami, J., and Cordiner, M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Context: There have been many attempts to identify families of diffuse interstellar bands (DIBs) with perfectly correlating band strengths. Although major efforts have been made to classify broadly based DIB families and important insights have been gained, no family has been identified with sufficient accuracy or statistical significance to prove that a series of selected DIBs originates from the same carrier. This can be attributed in part to the exclusive use of equivalent widths to establish DIB families. Aims: In a change of strategy, we search for DIBs that are highly correlated in both band strength and profile shape. This approach increases the chance of correlating DIBs being members of one family and originating from the same carrier molecule. We also search for correlations between DIB profile families and atomic interstellar lines, with the goal of further chemically constraining possible DIB carriers. Methods: We adapted the well-known method of time-series alignment to perform a spectral alignment; that is, DIB alignment. In a second step, we analysed the alignment results using a clustering analysis. This method required a statistically significant data set of DIB sight lines. The ESO Diffuse Interstellar Bands Large Exploration Survey (EDIBLES) data were perfectly suited for this application. Results: We report eight DIB families with correlating strengths and profiles, as well as four previously unreported DIBs in the visual range, found using DIB alignment. All profile family members show Pearson correlation coefficients in band strength higher than 0.9. In particular, we report the 6614 - 6521 AA DIB pair, in which both DIBs show the same triple-peak substructure and an unprecedented band strength Pearson correlation coefficient of 0.9935. The presented approach opens up new perspectives that can guide the laboratory search for DIB carriers., Comment: 53 pages, 53 figures, Accepted for publication in Astronomy & Astrophysics

Published

2024

3. Dark Dust III: The high-quality single-cloud reddening curve sample. Scrutinizing extinction curves in the Milky Way

Author

Siebenmorgen, R., Smoker, J., Krełowski, J., Gordon, Karl, and Chini, Rolf

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The nature of dust in the diffuse interstellar medium can be best investigated by means of reddening curves where only a single interstellar cloud lies between the observer and the background source. Published reddening curves often suffer from various systematic uncertainties. We merge a sample of 895 reddening curves of stars for which both FORS2 polarisation spectra and UVES high-resolution spectra are available. The resulting 111 sightlines toward OB-type stars have 175 reddening curves. For these stars, we derive their spectral type from the UVES high-resolution spectroscopy. To obtain high-quality reddening curves we exclude stars with composite spectra in the IUE/FUSE data due to multiple stellar systems. Likewise, we omit stars that have uncertain spectral type designations or stars with photometric variability. We neglect stars that show inconsistent parallaxes when comparing DR2 and DR3 from GAIA. Finally, we identify stars that show differences in the space and ground-based derived reddening curves between $0.28\,\mu$m and the $U$-band or in $R_V$. In total, we find 53 stars with one or more reddening curves passing the rejection criteria. This provides the highest quality Milky Way reddening curve sample available today. Averaging the curves from our high-quality sample, we find $R_V = 3.1 \pm 0.4$, confirming previous estimates. A future paper in this series will use the current sample of precise reddening curves and combine them with polarisation data to study the properties of Dark Dust., Comment: Recommended to acceptance by A&A

Published

2023

4. Determination of small-scale magnetic fields on Sun-like stars in the near-infrared using CRIRES$^+$

Author

Hahlin, A., Kochukhov, O., Rains, A. D., Lavail, A., Hatzes, A., Piskunov, N., Reiners, A., Seemann, U., Boldt-Christmas, L., Guenther, E. W., Heiter, U., Nortmann, L., Yan, F., Shulyak, D., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, T., and Stempels, E.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We aim to characterise the small-scale magnetic fields for a sample of 16 Sun-like stars and investigate the capabilities of the newly upgraded near-infrared (NIR) instrument CRIRES$^+$ at the VLT in the context of small-scale magnetic field studies. Our targets also had their magnetic fields studied in the optical, which allows us to compare magnetic field properties at different spatial scales on the stellar surface and to contrast small-scale magnetic field measurements at different wavelengths. We analyse the Zeeman broadening signature for six magnetically sensitive and insensitive \ion{Fe}{I} lines in the H-band to measure small-scale magnetic fields on the stellar surface. We use polarised radiative transfer modelling and NLTE departure coefficients in combination with MCMC to determine magnetic field characteristics together with non-magnetic stellar parameters. We use two different approaches to describe small-scale magnetic fields. The first is a two-component model with a single magnetic region and a free magnetic field strength. The second model contains multiple magnetic components with fixed magnetic field strengths. We find average magnetic field strengths ranging from $\sim 0.4$ kG down to $<0.1$ kG. The results align closely with other results from high resolution NIR spectrographs such as SPIRou. We find that the small-scale fields correlate with the large-scale fields and that the small-scale fields are at least 10 times stronger than the large-scale fields inferred with Zeeman Doppler imaging. The two- and multi-component models produce systematically different results as the strong fields from the multi-component model increase the obtained mean magnetic field strength. When comparing our results with the optical measurements of small-scale fields we find a systematic offset of 2--3 times stronger fields in the optical., Comment: 28 pages, 23 figures, accepted by A&A

Published

2023

5. CRIRES+ detection of CO emissions lines and temperature inversions on the dayside of WASP-18b and WASP-76b

Author

Yan, F., Nortmann, L., Reiners, A., Piskunov, N., Hatzes, A., Seemann, U., Shulyak, D., Lavail, A., Rains, A. D., Cont, D., Rengel, M., Lesjak, F., Nagel, E., Kochukhov, O., Czesla, S., Boldt-Christmas, L., Heiter, U., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, T., and Stempels, E.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The dayside atmospheres of ultra-hot Jupiters (UHJs) are predicted to possess temperature inversion layers with extremely high temperatures at high altitudes. We observed the dayside thermal emission spectra of WASP-18b and WASP-76b with the new CRIRES+ high-resolution spectrograph at near-infrared wavelengths. Using the cross-correlation technique, we detected strong CO emission lines in both planets, which confirms the existence of temperature inversions on their dayside hemispheres. The two planets are the first UHJs orbiting F-type stars with CO emission lines detected; previous detections were mostly for UHJs orbiting A-type stars. Evidence of weak H2O emission signals is also found for both planets. We further applied forward-model retrievals on the detected CO lines and retrieved the temperature-pressure profiles along with the CO volume mixing ratios. The retrieved logarithmic CO mixing ratio of WASP-18b (-2.2) is slightly higher than the value predicted by the self-consistent model assuming solar abundance. For WASP-76b, the retrieved CO mixing ratio (-3.6) is broadly consistent with the value of solar abundance. In addition, we included the equatorial rotation velocity (Veq ) in the retrieval when analyzing the line profile broadening. The obtained Veq is 7.0 km/s for WASP-18b and 5.2 km/s for WASP-76b, which are consistent with the tidally locked rotational velocities., Comment: 11 pages, 12 figures; accepted for publication in A&A

Published

2023

6. CRIRES$^{+}$ on sky at the ESO Very Large Telescope

Author

Dorn, R. J., Bristow, P., Smoker, J. V., Rodler, F., Lavail, A., Accardo, M., Ancker, M. van den, Baade, D., Baruffolo, A., Courtney-Barrer, B., Blanco, L., Brucalassi, A., Cumani, C., Follert, R., Haimerl, A., Hatzes, A., Haug, M., Heiter, U., Hinterschuster, R., Hubin, N., Ives, D. J., Jung, Y., Jones, M., Kirchbauer, J-P., Klein, B., Kochukhov, O., Korhonen, H. H., Köhler, J., Lizon, J-L., Moins, C., Molina-Conde, I., Marquart, T., Neeser, M., Oliva, E., Pallanca, L., Pasquini, L., Paufique, J., Piskunov, N., Reiners, A., Schneller, D., Schmutzer, R., Seemann, U., Slumstrup, D., Smette, A., Stegmeier, J., Stempels, E., Tordo, S., Valenti, E., Valenzuela, J. J., Vernet, J., Vinther, J., and Wehrhahn, A.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The CRyogenic InfraRed Echelle Spectrograph (CRIRES) Upgrade project CRIRES$^{+}$ extended the capabilities of CRIRES. It transformed this VLT instrument into a cross-dispersed spectrograph to increase the wavelength range that is covered simultaneously by up to a factor of ten. In addition, a new detector focal plane array of three Hawaii 2RG detectors with a 5.3 $\mu$m cutoff wavelength replaced the existing detectors. Amongst many other improvements, a new spectropolarimetric unit was added and the calibration system has been enhanced. The instrument was installed at the VLT on Unit Telescope 3 at the beginning of 2020 and successfully commissioned and verified for science operations during 2021, partly remotely from Europe due to the COVID-19 pandemic. The instrument was subsequently offered to the community from October 2021 onwards. This article describes the performance and capabilities of the upgraded instrument and presents on sky results., Comment: Accepted for publication in Astronomy and Astrophysics

Published

2023

7. A high resolution study of near-IR diffuse interstellar bands, search for small scale structure, time variability and stellar features

Author

Smoker, J. V., Müller, A., Ibero, A. Monreal, Elyajouri, M., Evans, C. J., Najarro, F., Farhang, A., Cox, N. L. J., Minniti, J., Smith, K. T., Pritchard, J., Lallement, R., Smette, A., Boffin, H. M. J., Cordiner, M., and Cami, J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Diffuse interstellar bands comprise hundreds of absorption features in the ISM. Most DIBs are observed in the optical, but some are in the IR. We observed 76 early-type stars at R=50,000 and S/N ratios of several hundreds using CRIRES. We measure DIBs around 1318, 1527, 1561, 1565, 1567, 1574 and/or 1624 nm. We detect a total of 6 DIB features and 17 likely stellar features assisted by a CMFGEN model. We also measured the DIBs at 1318 and 1527 nm using X-shooter towards ten Ceph. variables with 3.2 < E(B-V) < 6.5 and 4 stars at low values of water vapour. Correlation coeffs. of 0.73-0.96 are found comparing NIRDIB eq. width vs. E(B-V) and with r > 0.8 when comparing the NIR and optical DIBs 5705, 5780, 6203, 6283 and 6269 A. The 5797 A DIB is less well correlated with the NIDIBs. The "C60+" DIB at 9632 A is not well correlated with the 1318 nm DIB. Partial correlation coefficients using E(B-V) as the covariate were also determined. For stars earlier than B2, the 1318 nm DIB is affected by an emission line on its blue wing, likely stellar in nature, although we cannot rule out interstellar/circumstellar origin for example caused by by a DIB in emission. The 1318 nm DIB has a red wing and is reasonably well fitted by two gaussians. Neither the component ratios nor separation are correlated with 5780/5797 or E(B-V). EW(1318 nm) correlates with HI with EW(1318 nm)/E(B-V) decreasing with f(H2). Five pairs of stars within 1 am show similar 1318 nm DIB profiles. Variation in 1318 nm is seen in HD 145501/145502 and HD 168607/168625 pairs. CRIRES data for 17 stars separated by 6-14 months and 2 X-shooter sightlines separated by 9.9 yr were analysed. No time-variability is detected in the 5780, 5797 A, 1318 nm or 1527 nm DIBs. Tentative time variation is observed in the C60+ DIBs at 9577 and 9632 A towards HD 183143 although very close to the noise level with confirmation required., Comment: Accepted for publicaion in the main journal of Astronomy and Astrophysics on 25th November 2022

Published

2022

8. A magnetic massive star has experienced a stellar merger

Author

Frost, A. J., primary, Sana, H., additional, Mahy, L., additional, Wade, G., additional, Barron, J., additional, Le Bouquin, J.-B., additional, Mérand, A., additional, Schneider, F. R. N., additional, Shenar, T., additional, Barbá, R. H., additional, Bowman, D. M., additional, Fabry, M., additional, Farhang, A., additional, Marchant, P., additional, Morrell, N. I., additional, and Smoker, J. V., additional

Published

2024

9. The EDIBLES survey. VII. A survey of C2 and C3 in interstellar clouds

Author

Fan, H., primary, Rocha, C.M.R., additional, Cordiner, M., additional, Linnartz, H., additional, Cox, N. L. J., additional, Farhang, A., additional, Smoker, J., additional, Roueff, E., additional, Ehhrenfreund, P., additional, Salama, F., additional, Foing, B. H., additional, Lallement, R., additional, MacIsaac, H., additional, Kulik, K., additional, Sarre, P., additional, van Loon, J. Th., additional, and Cami, J., additional

Published

2023

10. The EDIBLES survey. VI. Searching for time variations of interstellar absorption features

Author

Farhang, A., primary, Smoker, J., additional, Cox, N. L. J., additional, Cami, J., additional, Linnartz, H., additional, van Loon, J. Th., additional, Cordiner, M. A., additional, Sarre, P. J., additional, Khosroshahi, H. G., additional, Ehrenfreund, P., additional, Foing, B. H., additional, Kaper, L., additional, and Laverick, M., additional

Published

2023

11. Dark Dust. III. The high-quality single-cloud reddening curve sample. Scrutinizing extinction curves in the Milky Way

Author

Siebenmorgen, R., primary, Krelowski, J., additional, Smoker, J., additional, Gordon, K., additional, and Chini, R., additional

Published

2023

12. Determination of small-scale magnetic fields on Sun-like stars in the near-infrared using CRIRES+

Author

Hahlin, A., primary, Kochukhov, O., additional, Rains, A.D., additional, Lavail, A., additional, Hatzes, A., additional, Piskunov, N., additional, Reiners, A., additional, Seemann, U., additional, Boldt-Christmas, L., additional, Guenther, E. W., additional, Heiter, U., additional, Nortmann, L., additional, Yan, F., additional, Shulyak, D., additional, Smoker, J. V., additional, Rodler, F., additional, Bristow, P., additional, Dorn, R. J., additional, Jung, Y., additional, Marquart, T., additional, and al, et, additional

Published

2023

13. CRIRES+ detection of CO emissions lines and temperature inversions on the dayside of WASP-18b and WASP-76b

Author

Yan, F., primary, Nortmann, L., additional, Reiners, A., additional, Piskunov, N., additional, Hatzes, A., additional, Seemann, U., additional, Shulyak, D., additional, Lavail, A., additional, Rains, A. D., additional, Cont, D., additional, Rengel, M., additional, Lesjak, F., additional, Nagel, E., additional, Kochukhov, O., additional, Czesla, S., additional, Boldt-Christmas, L., additional, Heiter, U., additional, Smoker, J. V., additional, Rodler, F., additional, Bristow, P., additional, Dorn, R. J., additional, Jung, Y., additional, Marquart, T., additional, and Stempels, E., additional

Published

2023

14. A high-resolution study of near-IR diffuse interstellar bands, search for small-scale structure, time variability, and stellar features

Author

Smoker, J. V., primary, Müller, A., additional, Monreal Ibero, A., additional, Elyajouri, M., additional, Evans, C. J., additional, Najarro, F., additional, Farhang, A., additional, Cox, N. L. J., additional, Minniti, J., additional, Smith, K. T., additional, Pritchard, J., additional, Lallement, R., additional, Smette, A., additional, Boffin, H. M. J., additional, Cordiner, M., additional, and Cami, J., additional

Published

2023

15. CRIRES+ on sky at the ESO Very Large Telescope

Author

Dorn, R. J., primary, Bristow, P., additional, Smoker, J. V., additional, Rodler, F., additional, Lavail, A., additional, Accardo, M., additional, van den Ancker, M., additional, Baade, D., additional, Baruffolo, A., additional, Courtney-Barrer, B., additional, Blanco, L., additional, Brucalassi, A., additional, Cumani, C., additional, Follert, R., additional, Haimerl, A., additional, Hatzes, A., additional, Haug, M., additional, Heiter, U., additional, Hinterschuster, R., additional, Hubin, N., additional, Ives, D. J., additional, Jung, Y., additional, Jones, M., additional, Kaeufl, H.-U., additional, Kirchbauer, J.-P., additional, Klein, B., additional, Kochukhov, O., additional, Korhonen, H. H., additional, Köhler, J., additional, Lizon, J-L., additional, Moins, C., additional, Molina-Conde, I., additional, Marquart, T., additional, Neeser, M., additional, Oliva, E., additional, Pallanca, L., additional, Pasquini, L., additional, Paufique, J., additional, Piskunov, N., additional, Reiners, A., additional, Schneller, D., additional, Schmutzer, R., additional, Seemann, U., additional, Slumstrup, D., additional, Smette, A., additional, Stegmeier, J., additional, Stempels, E., additional, Tordo, S., additional, Valenti, E., additional, Valenzuela, J. J., additional, Vernet, J., additional, Vinther, J., additional, and Wehrhahn, A., additional

Published

2023

16. Determination of small-scale magnetic fields on Sun-like stars in the near-infrared using CRIRES+

Author

Hahlin, Axel, Kochukhov, Oleg, Rains, Adam, Lavail, Alexis, Hatzes, A., Piskunov, Nikolai, Reiners, A., Seemann, U., Boldt-Christmas, Linn, Guenther, E. W., Heiter, Ulrike, Nortmann, L., Yan, F., Shulyak, D., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, Thomas, Stempels, H. C., Hahlin, Axel, Kochukhov, Oleg, Rains, Adam, Lavail, Alexis, Hatzes, A., Piskunov, Nikolai, Reiners, A., Seemann, U., Boldt-Christmas, Linn, Guenther, E. W., Heiter, Ulrike, Nortmann, L., Yan, F., Shulyak, D., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, Thomas, and Stempels, H. C.

Abstract

Aims: We aim to characterise the small-scale magnetic fields of a sample of 16 Sun-like stars and investigate the capabilities of the newly upgraded near-infrared (NIR) instrument CRIRES+ at the Very Large Telescope in the context of small-scale magnetic field studies. Our targets also had their magnetic fields studied with optical spectra, which allowed us to compare magnetic field properties at different spatial scales on the stellar surface and to contrast small-scale magnetic field measurements at different wavelengths. Methods: We analysed the Zeeman broadening signature for six magnetically sensitive and insensitive Fe I lines in the H-band to measure small-scale magnetic fields on the stellar surfaces of our sample. We used polarised radiative transfer modelling and non-local thermodynamic equilibrium departure coefficients in combination with Markov chain Monte Carlo sampling to determine magnetic field characteristics and non-magnetic stellar parameters. We used two different approaches to describe the small-scale magnetic fields. The first is a two-component model with a single magnetic region and a free magnetic field strength. The second model contains multiple magnetic components with fixed magnetic field strengths. Results: We found average magnetic field strengths ranging from & SIM;0.4 kG down to < 0.1 kG. The results align closely with other results from high-resolution NIR spectrographs, such as SPIRou. It appears that the typical magnetic field strength in the magnetic region is slightly stronger than 1.3 kG, and for most stars in our sample, this strength is between 1 and 2 kG. We also found that the small-scale fields correlate with the large-scale fields and that the small-scale fields are at least ten times stronger than the large-scale fields inferred with Zeeman Doppler imaging. The two- and multi-component models produce systematically different results, as the strong fields from the multi-component model increase the obtained mean m

Published

2023

17. CRIRES+ on sky at the ESO Very Large Telescope : Observing the Universe at infrared wavelengths and high spectral resolution

Author

Dorn, R. J., Bristow, P., Smoker, J. V., Rodler, F., Lavail, Alexis, Accardo, M., van den Ancker, M., Baade, D., Baruffolo, A., Courtney-Barrer, B., Blanco, L., Brucalassi, A., Cumani, C., Follert, R., Haimerl, A., Hatzes, A., Haug, M., Heiter, Ulrike, Hinterschuster, R., Hubin, N., Ives, D. J., Jung, Y., Jones, M., Kaeufl, H. -u., Kirchbauer, J. -p., Klein, B., Kochukhov, Oleg, Korhonen, H. H., Koehler, J., Lizon, J-l., Moins, C., Molina-Conde, I., Marquart, Thomas, Neeser, M., Oliva, E., Pallanca, L., Pasquini, L., Paufique, J., Piskunov, Nikolai, Reiners, A., Schneller, D., Schmutzer, R., Seemann, U., Slumstrup, D., Smette, A., Stegmeier, J., Stempels, Eric, Tordo, S., Valenti, E., Valenzuela, J. J., Vernet, J., Vinther, J., Wehrhahn, Ansgar, Dorn, R. J., Bristow, P., Smoker, J. V., Rodler, F., Lavail, Alexis, Accardo, M., van den Ancker, M., Baade, D., Baruffolo, A., Courtney-Barrer, B., Blanco, L., Brucalassi, A., Cumani, C., Follert, R., Haimerl, A., Hatzes, A., Haug, M., Heiter, Ulrike, Hinterschuster, R., Hubin, N., Ives, D. J., Jung, Y., Jones, M., Kaeufl, H. -u., Kirchbauer, J. -p., Klein, B., Kochukhov, Oleg, Korhonen, H. H., Koehler, J., Lizon, J-l., Moins, C., Molina-Conde, I., Marquart, Thomas, Neeser, M., Oliva, E., Pallanca, L., Pasquini, L., Paufique, J., Piskunov, Nikolai, Reiners, A., Schneller, D., Schmutzer, R., Seemann, U., Slumstrup, D., Smette, A., Stegmeier, J., Stempels, Eric, Tordo, S., Valenti, E., Valenzuela, J. J., Vernet, J., Vinther, J., and Wehrhahn, Ansgar

Abstract

The CRyogenic InfraRed Echelle Spectrograph (CRIRES) Upgrade project CRIRES+ extended the capabilities of CRIRES. It transformed this VLT instrument into a cross-dispersed spectrograph to increase the wavelength range that is covered simultaneously by up to a factor of ten. In addition, a new detector focal plane array of three Hawaii 2RG detectors with a 5.3 mu m cutoff wavelength replaced the existing detectors. Amongst many other improvements, a new spectropolarimetric unit was added and the calibration system has been enhanced. The instrument was installed at the VLT on Unit Telescope 3 at the beginning of 2020 and successfully commissioned and verified for science operations during 2021, partly remotely from Europe due to the COVID-19 pandemic. The instrument was subsequently offered to the community from October 2021 onwards. This article describes the performance and capabilities of the upgraded instrument and presents on sky results.

Published

2023

18. Determination of small-scale magnetic fields on Sun-like stars in the near-infrared using CRIRES

Author

Ministerio de Ciencia e Innovación (España), European Commission, Swedish Research Council, Hahlin, A., Kochukhov, O., Rains, A. D., Lavail, A., Hatzes, Artie P., Piskunov, N., Reiners, Ansgar, Seemann, U., Boldt-Christmas, L., Guenther, E. W., Heiter, U., Nortmann, L., Yan, F., Shulyak, D., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, T., Stempels, E., Ministerio de Ciencia e Innovación (España), European Commission, Swedish Research Council, Hahlin, A., Kochukhov, O., Rains, A. D., Lavail, A., Hatzes, Artie P., Piskunov, N., Reiners, Ansgar, Seemann, U., Boldt-Christmas, L., Guenther, E. W., Heiter, U., Nortmann, L., Yan, F., Shulyak, D., Smoker, J. V., Rodler, F., Bristow, P., Dorn, R. J., Jung, Y., Marquart, T., and Stempels, E.

Abstract

Aims. We aim to characterise the small-scale magnetic fields of a sample of 16 Sun-like stars and investigate the capabilities of the newly upgraded near-infrared (NIR) instrument CRIRES+ at the Very Large Telescope in the context of small-scale magnetic field studies. Our targets also had their magnetic fields studied with optical spectra, which allowed us to compare magnetic field properties at different spatial scales on the stellar surface and to contrast small-scale magnetic field measurements at different wavelengths. Methods. We analysed the Zeeman broadening signature for six magnetically sensitive and insensitive Fe I lines in the H-band to measure small-scale magnetic fields on the stellar surfaces of our sample. We used polarised radiative transfer modelling and non-local thermodynamic equilibrium departure coefficients in combination with Markov chain Monte Carlo sampling to determine magnetic field characteristics and non-magnetic stellar parameters. We used two different approaches to describe the small-scale magnetic fields. The first is a two-component model with a single magnetic region and a free magnetic field strength. The second model contains multiple magnetic components with fixed magnetic field strengths. Results. We found average magnetic field strengths ranging from ∼0.4 kG down to < 0.1 kG. The results align closely with other results from high-resolution NIR spectrographs, such as SPIRou. It appears that the typical magnetic field strength in the magnetic region is slightly stronger than 1.3 kG, and for most stars in our sample, this strength is between 1 and 2 kG. We also found that the small-scale fields correlate with the large-scale fields and that the small-scale fields are at least ten times stronger than the large-scale fields inferred with Zeeman Doppler imaging. The two- and multi-component models produce systematically different results, as the strong fields from the multi-component model increase the obtained mean magnetic fiel

Published

2023

19. CRIRES+ on sky at the ESO Very Large Telescope: Observing the Universe at infrared wavelengths and high spectral resolution.

Author

Dorn, R. J., Bristow, P., Smoker, J. V., Rodler, F., Lavail, A., Accardo, M., van den Ancker, M., Baade, D., Baruffolo, A., Courtney-Barrer, B., Blanco, L., Brucalassi, A., Cumani, C., Follert, R., Haimerl, A., Hatzes, A., Haug, M., Heiter, U., Hinterschuster, R., and Hubin, N.

Subjects

VERY large telescopes, FOCAL plane arrays sensors, WAVELENGTHS, ADAPTIVE optics, COMMUNITIES

Abstract

The CRyogenic InfraRed Echelle Spectrograph (CRIRES) Upgrade project CRIRES+ extended the capabilities of CRIRES. It transformed this VLT instrument into a cross-dispersed spectrograph to increase the wavelength range that is covered simultaneously by up to a factor of ten. In addition, a new detector focal plane array of three Hawaii 2RG detectors with a 5.3 μm cutoff wavelength replaced the existing detectors. Amongst many other improvements, a new spectropolarimetric unit was added and the calibration system has been enhanced. The instrument was installed at the VLT on Unit Telescope 3 at the beginning of 2020 and successfully commissioned and verified for science operations during 2021, partly remotely from Europe due to the COVID-19 pandemic. The instrument was subsequently offered to the community from October 2021 onwards. This article describes the performance and capabilities of the upgraded instrument and presents on sky results. [ABSTRACT FROM AUTHOR]

Published

2023

20. The EDIBLES survey. V. Line profile variations in the lambdalambda5797, 6379, and 6614 diffuse interstellar bands as a tool to constrain carrier sizes

Author

MacIsaac, H., primary, Cami, J., additional, Cox, N. L. J., additional, Farhang, A., additional, Smoker, J., additional, Elyajouri, M., additional, Lallement, R., additional, Sarre, P. J., additional, Cordiner, M. A., additional, Fan, H., additional, Kulik, K., additional, Linnartz, H., additional, Foing, B. H., additional, van Loon, J. Th., additional, Mulas, G., additional, and Smith, K. T., additional

Published

2022