Your search keyword '"Andersson, B. -G."' showing total 402 results

1. Grain Alignment and Dust Evolution Physics with Polarisation (GRADE-POL). I. Dust Polarisation Modelling for Isolated Starless Cores

Author

Tram, Le Ngoc, Hoang, Thiem, Lazarian, Alex, Seifried, Daniel, Andersson, B-G, Pillai, Thushara G. S., Truong, Bao, Diep, Pham Ngoc, and Fanciullo, Lapo

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The polarisation of light induced by aligned interstellar dust serves as a significant tool in investigating cosmic magnetic fields, dust properties, and poses a challenge in characterising the polarisation of the cosmic microwave background and other sources. To establish dust polarisation as a reliable tool, the physics of the grain alignment process needs to be studied thoroughly. The Magnetically enhanced Radiative Torque (MRAT) alignment is the only mechanism that can induce highly efficient alignment of grains with magnetic fields required by polarisation observations of the diffuse interstellar medium. Here, we aim to test the MRAT mechanism in starless cores using the multiwavelength polarisation from optical/NIR to far-IR/submm. Our numerical modelling of dust polarisation using the MRAT theory demonstrated that the alignment efficiency of starlight polarisation ($p_{\rm ext}/A_{\rm V}$) and the degree of thermal dust polarisation ($p_{\rm em}$) first decrease slowly with increasing visual extinction ($A_{\rm V}$) and then falls steeply as $\propto A^{-1}_{\rm V}$ at large $A_{\rm V}$ due to the loss of grain alignment, which explains the phenomenon known as polarisation holes. Visual extinction at the transition from shallow to steep slope ($A^{\rm loss}_{\rm V}$) increases with the maximum grain size. By applying physical profiles suitable for a starless core Pipe-109, our model successfully reproduces the existing observations of starlight polarisation at R-band ($0.65\,\mu$m) and H-band ($1.65\,\mu$m), as well as emission polarisation at submillimeter ($850\,\mu$m). Successful modelling of observational data requires perfect alignment of large grains as evidence of the MRAT mechanism, and larger maximum size with higher elongation at higher $A_{\rm V}$. The latter reveals the first evidence for the new model of anisotropic grain growth induced by magnetic grain alignment., Comment: 16 pages, 13 figures, 1 table, submitted to A&A

Published

2025

2. Spectropolarimeter on a 2--4 m class telescope and proposed science cases

Author

Soam, Archana, Maharana, Siddharth, Andersson, B-G, and Ramaprakash, A. N.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We propose a spectropolarimeter a covering wavelength range of 3200--7000 {\AA} [3200{\AA} chosen as lower limit to go to the atmospheric cut-off. It's ``needed" for some Serkowski curves and would make the instrument even more unique] for a 2-4~m class telescope. In this article, we discuss the science cases which will be covered with this proposed instrument. The technical requirements and analysis plan for each science case is also discussed. This spectropolarimeter targeting exciting galactic and extra-galactic research, will be unique instrument on a 2-4~m facilities., Comment: 12 pages, 3 tables, 3 Figures

Published

2024

3. Submillimeter-wavelength Polarimetry of IRC+10216

Author

Andersson, B-G, Karoly, Janik, Bastien, Pierre, Soam, Archana, Coudé, Simon, Tahani, Mehrnoosh, Gordon, Michael S., and Fox-Middleton, Sydney

Subjects

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

Abstract

We present SCUBA-2/POL-2 850 $\mu$m polarimetric observations of the circumstellar envelope (CSE) of the carbon-rich asymptotic giant branch (AGB) star IRC+10216. Both FIR and optical polarization data indicate grains aligned with their long axis in the radial direction relative to the central star. The 850 $\mu$m polarization does not show this simple structure. The 850 $\mu$m data are indicative, albeit not conclusive, of a magnetic dipole geometry. Assuming such a simple dipole geometry, the resulting 850 $\mu$m polarization geometry is consistent with both Zeeman observations and small-scale structure in the CSE. While there is significant spectral line polarization contained within the SCUBA-2 850 $\mu$m pass-band for the source, it is unlikely that our broadband polarization results are dominated by line polarization. To explain the required grain alignment, grain mineralogy effects, due to either fossil silicate grains from the earlier oxygen-rich AGB phase of the star, or due to the incorporation of ferromagnetic inclusions in the largest grains, may play a role. We argue that the most likely explanation is due to a new alignment mechanism \citep{arXiv:2009.11304} wherein a charged grain, moving relative to the magnetic field, precesses around the induced electric field and therefore aligns with the magnetic field. This mechanism is particularly attractive as the optical, FIR, and sub-mm wave polarization of the carbon dust can then be explained in a consistent way, differing simply due to the charge state of the grains., Comment: Accepted in ApJ v2 - title update to match published manuscript

Published

2023

4. Physics and Chemistry of Radiation Driven Cloud Evolution. [C II] Kinematics of IC 59 and IC 63

Author

Caputo, Miranda, Soam, Archana, Andersson, B-G, Dennis, Remy, Chambers, Ed, Güsten, Rolf, Knee, Lewis B. G., and Stutzki, Jürgen

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We used high-resolution [C II] 158 $\mu$m mapping of two nebulae IC 59 and IC 63 from SOFIA/upGREAT in conjunction with ancillary data on the gas, dust, and polarization to probe the kinematics, structure, and magnetic properties of their photo-dissociation regions (PDRs). The nebulae are part of the Sh 2-185 H II region illuminated by the B0 IVe star $\gamma$ Cas. The velocity structure of each PDR changes with distance from $\gamma$ Cas, consistent with driving by the radiation. Based on previous FUV flux measurements of, and the known distance to $\gamma$ Cas along with the predictions of 3D distances to the clouds, we estimated the FUV radiation field strength (G0) at the clouds. Assuming negligible extinction between the star and clouds, we find their 3D distances from $\gamma$ Cas. For IC 63, our results are consistent with earlier estimates of distance from Andersson et al. (2013), locating the cloud at 2 pc from $\gamma$ Cas, at an angle of 58 to the plane of the sky, behind the star. For IC 59, we derive a distance of 4.5 pc at an angle of 70 in front of the star. We do not detect any significant correlation between the orientation of the magnetic field (Soam et al. 2017) and the velocity gradients of [C II] gas, indicating a moderate magnetic field strength. The kinetic energy in IC 63 is estimated to be order of ten higher than the magnetic energies. This suggests that kinetic pressure in this nebula is dominant.

Published

2023

5. The origin of dust polarization in the Orion Bar

Author

Gouellec, Valentin J. M. Le, Andersson, B-G, Soam, Archana, Schirmer, Thiébaut, Michail, Joseph M., Lopez-Rodriguez, Enrique, Flores, Sophia, Chuss, David T., Vaillancourt, John E., Hoang, Thiem, and Lazarian, Alex

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The linear polarization of thermal dust emission provides a powerful tool to probe interstellar and circumstellar magnetic fields, because aspherical grains tend to align themselves with magnetic field lines. While the Radiative Alignment Torque (RAT) mechanism provides a theoretical framework to this phenomenon, some aspects of this alignment mechanism still need to be quantitatively tested. One such aspect is the possibility that the reference alignment direction changes from the magnetic field ("B-RAT") to the radiation field k-vector ("k-RAT") in areas of strong radiation fields. We investigate this transition toward the Orion Bar PDR, using multi-wavelength SOFIA HAWC+ dust polarization observations. The polarization angle maps show that the radiation field direction is on average not the preferred grain alignment axis. We constrain the grain sizes for which the transition from B-RAT to k-RAT occur in the Orion Bar (grains > 0.1 {\mu}m toward the most irradiated locations), and explore the radiatively driven rotational disruption that may take place in the high-radiation environment of the Bar for large grains. While the grains susceptible to rotational disruption should be in supra-thermal rotation and aligned with the magnetic field, k-RAT aligned grains would rotate at thermal velocities. We find that the grain size at which the alignment shifts from B-RAT to k-RAT corresponds to grains too large to survive the rotational disruption. Therefore, we expect a large fraction of grains to be aligned at supra-thermal rotation with the magnetic field, and potentially be subject to rotational disruption depending on their tensile strength.

Published

2023

6. High Resolution Observations of HI in the IC 63 Reflection Nebula

Author

Bonne, L., Andersson, B-G, Minchin, R., Soam, A., Yaldaei, J., Kulas, K., Karoly, J., Knee, L. B. G., Kumar, S., and Roy, N.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Photodissociation regions (PDRs), where the (far-)ultraviolet light from hot young stars interact with the gas in surrounding molecular clouds, provide laboratories for understanding the nature and role of feedback by star formation on the interstellar medium. While the general nature of PDRs is well understood - at least under simplified conditions - the detailed dynamics and chemistry of these regions, including gas clumping, evolution over time etc. can be very complex. We present interferometric observations of the 21 cm atomic hydrogen line, combined with [CII] 158 $\mu$m observations, towards the nearby reflection nebula IC 63. We find a clumpy HI structure in the PDR, and a ring morphology for the HI emission at the tip of IC 63. We further unveil kinematic substructure, of the order of 1~km~s$^{-1}$, in the PDR layers and several legs that will disperse IC 63 in $<$0.5 Myr. We find that the dynamics in the PDR explain the observed clumpy HI distribution and lack of a well-defined HI/H$_{2}$ transition front. However, it is currently not possible to conclude whether HI self-absorption (HISA) and non-equilibrium chemistry also contribute to this clumpy morphology and missing HI/H$_{2}$ transition front., Comment: 13 pages, 12 figures, accepted in AJ

Published

2023

7. SOFIA observations of 30 Doradus: II -- Magnetic fields and large scale gas kinematics

Author

Tram, Le Ngoc, Bonne, Lars, Hu, Yue, Lopez-Rodriguez, Enrique, Guerra, Jordan A., Lesaffre, Pierre, Gusdorf, Antoine, Hoang, Thiem, Lee, Min-Young, Lazarian, Alex, Andersson, B-G, Coude, Simon, Soam, Archana, Vacca, William D., Lee, Hyeseung, and Gordon, Michael

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The heart of the Large Magellanic Cloud, 30 Doradus, is a complex region with a clear core-halo structure. Feedback from the stellar cluster R$\,$136 has been shown to be the main source of energy creating multiple pc-scale expanding-shells in the outer region, and carving a nebula core in the proximity of the ionization source. We present the morphology and strength of the magnetic fields (B-fields) of 30 Doradus inferred from the far-infrared polarimetric observations by SOFIA/HAWC+ at 89, 154, and 214$\,\mu$m. The B-field morphology is complex, showing bending structures around R$\,$136. In addition, we use high spectral and angular resolution [\textsc{CII}] observations from SOFIA/GREAT and CO(2-1) from APEX. The kinematic structure of the region correlates with the B-field morphology and shows evidence of multiple expanding shells. Our B-field strength maps, estimated using the Davis-Chandrasekhar-Fermi method and structure-function, show variations across the cloud within a maximum of 600, 450, and 350$\,\mu$G at 89, 154, and 214$\,\mu$m, respectively. We estimated that the majority of the 30 Doradus clouds are sub-critical and sub-Alfv\'enic. The probability distribution function of the gas density shows that the turbulence is mainly compressively driven, while the plasma beta parameter indicates supersonic turbulence. We show that the B-field is sufficient to hold the cloud structure integrity under feedback from R$\,$136. We suggest that supersonic compressive turbulence enables the local gravitational collapse and triggers a new generation of stars to form. The velocity gradient technique (VGT) using [\textsc{CII}] and CO(2-1) is likely to confirm these results., Comment: 26 pages, 17 figures, 3 tables, accepted to ApJ

Published

2022

8. The Magnetic Field in the Milky Way Filamentary Bone G47

Author

Stephens, Ian W., Myers, Philip C., Zucker, Catherine, Jackson, James M., Andersson, B-G, Smith, Rowan, Soam, Archana, Battersby, Cara, Sanhueza, Patricio, Hogge, Taylor, Smith, Howard A., Novak, Giles, Sadavoy, Sarah, Pillai, Thushara, Li, Zhi-Yun, Looney, Leslie W., Sugitani, Koji, Coude, Simon, Guzman, Andres, Goodman, Alyssa, Kusune, Takayoshi, Santos, Fabio P., Zuckerman, Leah, and Encalada, Frankie

Subjects

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

Abstract

Star formation primarily occurs in filaments where magnetic fields are expected to be dynamically important. The largest and densest filaments trace spiral structure within galaxies. Over a dozen of these dense ($\sim$10$^4$\,cm$^{-3}$) and long ($>$10\,pc) filaments have been found within the Milky Way, and they are often referred to as "bones." Until now, none of these bones have had their magnetic field resolved and mapped in their entirety. We introduce the SOFIA legacy project FIELDMAPS which has begun mapping $\sim$10 of these Milky Way bones using the HAWC+ instrument at 214\,$\mu$m and 18$\farcs$2 resolution. Here we present a first result from this survey on the $\sim$60\,pc long bone G47. Contrary to some studies of dense filaments in the Galactic plane, we find that the magnetic field is often not perpendicular to the spine (i.e., the center-line of the bone). Fields tend to be perpendicular in the densest areas of active star formation and more parallel or random in other areas. The average field is neither parallel or perpendicular to the Galactic plane nor the bone. The magnetic field strengths along the spine typically vary from $\sim$20 to $\sim$100\,$\mu$G. Magnetic fields tend to be strong enough to suppress collapse along much of the bone, but for areas that are most active in star formation, the fields are notably less able to resist gravitational collapse., Comment: Accepted to ApJL; typo in author list metadata corrected

Published

2022

9. Ultraviolet Spectropolarimetry with Polstar: Interstellar Medium Science

Author

Andersson, B-G, Clayton, Geoffrey C., Doney, Kirstin D., Hoang, Thiem, Magalhaes, Antonio Mario, Panopoulou, Georgia V., Yan, Huirong, and Scowen, Paul A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Continuum polarization over the UV-to-microwave range is due to dichroic extinction (or emission) by asymmetric, aligned dust grains. Because of both grain alignment and scattering physics, the wavelength dependence of the polarization, generally, traces the size of the aligned grains. Ultraviolet (UV) polarimetry therefore provides a unique probe of the smallest dust grains (diameter$<0.09\mu$m), their mineralogy and interaction with the environment. However, the current observational status of interstellar UV polarization is very poor with less than 30 lines of sight probed. With the modern, quantitative and well-tested, theory of interstellar grain alignment now available, we have the opportunity to advance the understanding of the interstellar medium by executing a systematic study of the UV polarization in the ISM of the Milky Way and near-by galaxies. The Polstar mission will provide the sensitivity and observing time needed to carry out such a program, addressing questions of dust composition as a function of size and location, radiation- and magnetic-field characteristics as well as unveiling the carrier of the 2175\AA\ extinction feature. In addition, using high-resolution UV line spectroscopy Polstar will search for and probe the alignment of, and polarization from, aligned atoms and ions - so called "Ground State Alignment", a potentially powerful new probe of magnetic fields in the diffuse ISM., Comment: 18 pages, 7 figures

Published

2021

10. Spatial variation in temperature and density in the IC 63 PDR from $\rm H_{2}$ Spectroscopy

Author

Soam, Archana, Andersson, B-G, Karoly, Janik, DeWitt, Curtis, and Richter, Matthew

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have measured the gas temperature in the IC 63 photodissociation region (PDR) using the S(1) and S(5) pure rotation lines of molecular hydrogen with SOFIA/EXES. We divide the PDR into three regions for analysis based on the illumination from $\gamma$ Cas: "sunny," "ridge" and "shady." Constructing rotation diagrams for the different regions, we obtain temperatures of T$_{ex}$=$562^{+52}_{-43}$ K towards the "ridge" and T$_{ex}$=$495^{+28}_{-25}$ K in the "shady" side. The H$_2$ emission was not detected on the "sunny" side of the ridge, likely due to the photo-dissociation of H$_2$ in this gas. Our temperature values are lower than the value of T$_{ex}$=685$\pm$68 K using the S(1), S(3), and S(5) pure rotation lines, derived by Thi et al. (2009) using lower spatial-resolution ISO-SWS data at a different location of the IC 63 PDR. This difference indicates that the PDR is inhomogeneous and illustrates the need for high-resolution mapping of such regions to fully understand their physics. The detection of a temperature gradient correlated with the extinction into the cloud, points to the ability of using H$_2$ pure rotational line spectroscopy to map the gas temperature on small scales. We used a PDR model to estimate the FUV radiation and corresponding gas densities in IC 63. Our results shows the capability of SOFIA/EXES to resolve and provide detailed information on the temperature in such regions., Comment: 10 pages, 4 figures

Published

2021

11. SOFIA observations of 30 Doradus: I -- Far-Infrared dust polarization and implications for grain alignment and disruption by radiative torques

Author

Tram, Le Ngoc, Hoang, Thiem, Lopez-Rodriguez, Enrique, Coudé, Simon, Soam, Archana, Andersson, B-G, Lee, Min-Young, Bonne, Lars, Vacca, William D., and Lee, Hyeseung

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Located in the Large Magellanic cloud and mostly irradiated by a massive-star cluster R$\,$136, 30 Doradus is an ideal target to test the leading theory of the grain alignment and rotational disruption by RAdiative Torques (RATs). Here, we use publicly available polarized thermal dust emission observations of 30 Doradus at 89, 154, and 214$\,\mu$m using SOFIA/HAWC+. We analyse the variation of the dust polarization degree ($p$) with the total emission intensity ($I$), the dust temperature ($T_{\rm d}$), and the gas column density ($N_{\rm H}$) constructed from ${\it Herschel}$ data. The 30 Doradus complex is divided into two main regions relative to R$\,$136, namely North and South. In the North, we find that the polarization degree first decreases and then increases before decreasing again when the dust temperature increases toward the irradiating cluster R$\,$136. The first depolarization likely arises from the decrease of grain alignment efficiency toward the dense medium due to the attenuation of the interstellar radiation field and the increase of the gas density. The second trend (the increase of $p$ with $T_{\rm d}$) is consistent with the RAT alignment theory. The final trend (the decrease of $p$ with $T_{\rm d}$) is consistent with the RAT alignment theory only when the grain rotational disruption by RATs is taken into account. In the South, we find that the polarization degree is nearly independent of the dust temperature, while the grain alignment efficiency is higher around the peak of the gas column density and decreases toward the radiation source. The latter feature is also consistent with the prediction of the rotational disruption by RATs., Comment: 19 pages, 13 figures, 1 table, accepted to ApJ

Published

2021

12. Interstellar extinction, polarization, and grain alignment in the Sh 2-185 (IC 59 and IC 63) region

Author

Soam, Archana, Andersson, B-G, Straižys, V., Caputo, Miranda, Kazlauskas, A., Boyle, R. P., Janusz, R., Zdanavičius, J., and Acosta-Pulido, J. A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Optical and infrared continuum polarization from the interstellar medium is driven by radiative processes aligning the grains with the magnetic field. While a quantitative, predictive theory of Radiative Alignment Torques (RAT) exists and has been extensively tested, several parameters of the theory remain to be fully constrained. In a recent paper, \citet{medan2019} showed that the polarization efficiency (and therefore grain alignment efficiency) at different locations in the wall of the Local Bubble (LB) could be modeled as proportional to the integrated light intensity from the surrounding stars and OB associations. Here we probe that relationship at high radiation field intensities by studying the extinction and polarization in the two reflection nebulae IC\,59 and IC\,63 in the Sh 2-185 H II region, illuminated by the B0 IV star $\gamma$ Cassiopeia. We combine archival visual polarimetry with new 7-band photometry in the Vilnius system, to derive the polarization efficiency from the material. We find that the same linear relationship seen in the Local Bubble wall also applies to the Sh 2-185 region, strengthening the conclusion from the earlier study., Comment: 31 pages, 11 figures, 4 tables (data under tables will be uploaded to CDS), Accepted for publication in AJ

Published

2021

13. On the collisional disalignment of dust grains in illuminated and shaded regions of IC 63

Author

Soam, Archana, Andersson, B-G, Acosta-Pulido, Jose, López, Manuel Fernández, Vaillancourt, John E., Weaver, Susanna L. Widicus, Piirola, Vilppu, and Gordon, Michael S.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Interstellar dust grain alignment causes polarization from UV to mm wavelengths, allowing the study of the geometry and strength of the magnetic field. Over last couple of decades observations and theory have led to the establishment of the Radiative Alignment Torque (RAT) mechanism as leading candidate to explain the effect. With a quantitatively well constrained theory, polarization can be used not only to study the interstellar magnetic field, but also the dust and other environmental parameters. Photo-dissociation Regions (PDRs), with their intense, anisotropic radiation fields, consequent rapid $\rm H_{2}$ formation, and high spatial density-contrast provide a rich environment for such studies. Here we discuss an expanded optical, NIR, and mm-wave study of the IC\,63 nebula, showing strong $\rm H_{2}$ formation-enhanced alignment and the first direct empirical evidence for disalignment due to gas-grain collisions using high-resolution $\rm HCO^{+}$(J=1-0) observations. We find that relative amount of polarization is marginally anti-correlated with column density of $\rm HCO^{+}$. However, separating the lines of sight of optical polarimetry into those behind, or in front of, a dense clump as seen from $\gamma$ Cas, the distribution separates into two well defined sets, with data corresponding to \enquote{shaded} gas having a shallower slope. This is expected if the decrease in polarization is caused by collisions since collisional disalignment rate is proportional to R$_C\propto n\sqrt{T}$. Ratios of the best-fit slopes for the \enquote{illuminated} and \enquote{shaded} samples of lines of sight agrees, within the uncertainties, with the square-root of the two-temperature H$_2$ excitation in the nebula seen by Thi et al. (2009)., Comment: 14 pages, 6 figures, Accepted for publication in ApJ

Published

2020

14. Probing Interstellar Grain Growth Through Polarimetry in the Taurus Cloud Complex

Author

Vaillancourt, John E., Andersson, B-G, Clemens, Dan P., Piirola, Vilppu, Hoang, Thiem, Becklin, Eric E., and Caputo, Miranda

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The optical and near-infrared (OIR) polarization of starlight is typically understood to arise from the dichroic extinction of that light by dust grains whose axes are aligned with respect to a local magnetic-field. The size distribution of the aligned-grain population can be constrained by measurements of the wavelength dependence of the polarization. The leading physical model for producing the alignment is radiative alignment-torques (RAT), which predicts that the most efficiently aligned grains are those with sizes larger than the wavelengths of light composing the local radiation field. Therefore, for a given grain-size distribution, the wavelength at which the polarization reaches a maximum ($\lambda_\mathrm{max}$) should correlate with the characteristic reddening along the line of sight between the dust grains and the illumination source. A correlation between $\lambda_\mathrm{max}$ and reddening has been previously established for extinctions up to $A_V\approx4$ mag. We extend the study of this relationship to a larger sample of stars in the Taurus cloud complex, including extinctions $A_V>10$ mag. We confirm the earlier results for $A_V<4$ mag, but find that the $\lambda_\mathrm{max}$ vs. $A_V$ relationship bifurcates above $A_V\approx4$ mag, with part of the sample continuing the previously observed relationship and the remaining part exhibiting a significantly steeper rise. We propose that the data exhibiting the steep rise represent lines-of-sight towards high density "clumps," where grain coagulation has taken place. We present RAT-based modeling supporting these hypotheses. These results indicate that multi-band OIR polarimetry is a powerful tool for tracing grain growth in molecular clouds, independent of uncertainties in the dust temperature and emissivity., Comment: 25 pages, 7 figures, to be published in ApJ

Published

2020

15. Revisiting the Magnetic Field of the L183 Starless Core

Author

Karoly, Janik, Soam, Archana, Andersson, B-G, Coudé, Simon, Bastien, Pierre, Vaillancourt, John E., and Lee, Chang Won

Subjects

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

Abstract

We present observations of linear polarization from dust thermal emission at 850 $\mu m$ towards the starless cloud L183. These data were obtained at the James Clerk Maxwell Telescope (JCMT) using the Submillimetre Common-User Bolometer Array 2 (SCUBA-2) camera in conjunction with its polarimeter POL-2. Polarized dust emission traces the plane-of-sky magnetic field structure in the cloud, thus allowing us to investigate the role of magnetic fields in the formation and evolution of its starless core. To interpret these measurements, we first calculate the dust temperature and column density in L183 by fitting the spectral energy distribution obtained by combining data from the JCMT and the $\textit{Herschel}$ space observatory. We used the Davis-Chandrasekhar-Fermi technique to measure the magnetic field strength in five sub-regions of the cloud, and we find values ranging from $\sim120\pm18~\mu G$ to $\sim270\pm64~\mu G$ in agreement with previous studies. Combined with an average hydrogen column density ($N_{\text{H}_2}$) of $\sim 1.5 \times 10^{22} $cm$^{-2}$ in the cloud, we also find that all five sub-regions are magnetically subcritical. These results indicate that the magnetic field in L183 is sufficiently strong to oppose the gravitational collapse of the cloud., Comment: 14 pages, 9 figures, accepted for publication to ApJ

Published

2020

16. Magnetic fields in the infrared dark cloud G34.43+0.24

Author

Soam, Archana, Liu, Tie, Andersson, B-G, Lee, Chang Won, Liu, Junhao, Juvela, Mika, Li, Pak Shing, Goldsmith, Paul F., Zhang, Qizhou, Koch, Patrick M., Kim, Kee-Tae, Qiu, Keping, Evans II, Neal J., and collaborations, SCOPE

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the B-fields mapped in IRDC G34.43+0.24 using 850\,$\mu$m polarized dust emission observed with the POL-2 instrument at JCMT. We examine the magnetic field geometries and strengths in the northern, central, and southern regions of the filament. The overall field geometry is ordered and aligned closely perpendicular to the filament's main axis, particularly in regions containing the central clumps MM1 and MM2, whereas MM3 in the north has field orientations aligned with its major axis. The overall field orientations are uniform at large (POL-2 at 14$\arcsec$ and SHARP at 10$\arcsec$) to small scales (TADPOL at 2.5$\arcsec$ and SMA at 1.5$\arcsec$) in the MM1 and MM2 regions. SHARP/CSO observations in MM3 at 350\,$\mu$m from Tang et al. show a similar trend as seen in our POL-2 observations. TADPOL observations demonstrate a well-defined field geometry in MM1/MM2 consistent with MHD simulations of accreting filaments. We obtained a plane-of-sky magnetic field strength of 470$\pm$190\,$\mu$G, 100$\pm$40\,$\mu$G, and 60$\pm$34\,$\mu$G in the central, northern and southern regions of G34, respectively, using the updated Davis-Chandrasekhar-Fermi relation. The estimated value of field strength, combined with column density and velocity dispersion values available in the literature, suggests G34 to be marginally critical with criticality parameter $\rm \lambda$ values 0.8$\pm$0.4, 1.1$\pm$0.8, and 0.9$\pm$0.5 in the central, northern, and southern regions, respectively. The turbulent motions in G34 are sub-Alfv\'{e}nic with Alfv\'{e}nic Mach numbers of 0.34$\pm$0.13, 0.53$\pm$0.30, and 0.49$\pm$0.26 in the three regions. The observed aligned B-fields in G34.43+0.24 are consistent with theoretical models suggesting that B-fields play an important role in guiding the contraction of the cloud driven by gravity., Comment: 16 pages, 10 figures, Accepted for publication in ApJ

Published

2019

17. First Sub-pc Sale Mapping of Magnetic Fields in the Vicinity of a Very Low Luminosity Object, L1521F-IRS

Author

Soam, Archana, Lee, Chang Won, Andersson, B-G, G., Maheswar, Juvela, Mika, Liu, Tie, Kim, Gwanjeong, Rao, Ramprasad, Chung, Eun Jung, Kwon, Woojin, and Sharma, Ekta

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

L1521F is found to be forming multiple cores and it is cited as an example of the densest core with an embedded VeLLO in a highly dynamical environment. We present the core-scale magnetic fields (B-fields) in the near vicinity of the VeLLO L1521F-IRS using submm polarization measurements at 850$~\mu$m using JCMT POL-2. This is the first attempt to use high-sensitivity observations to map the sub-parsec scale B-fields in a core with a VeLLO. The B-fields are ordered and very well connected to the parsec-scale field geometry seen in our earlier optical polarization observations and the large-scale structure seen in Planck dust polarization. The core scale B-field strength estimated using Davis-Chandrasekhar-Fermi relation is $\rm 330\pm100~\mu$G which is more than ten times of the value we obtained in the envelope (envelope in this paper is "core envelope"). This indicates that B-fields are getting stronger on smaller scales. The magnetic energies are found to be 1 to 2 orders of magnitude higher than non-thermal kinetic energies in the envelope and core. This suggests that magnetic fields are more important than turbulence in the energy budget of L1521F. The mass-to-flux ratio of 2.3$\pm$0.7 suggests that the core is magnetically-supercritical. The degree of polarization is steadily decreasing towards the denser part of the core with a power law slope of -0.86., Comment: 12 pages, 5 figures, accepted for publication in ApJ

Published

2019

18. Magnetic Field Strengths and Grain Alignment Variations in the Local Bubble Wall

Author

Medan, Ilija and Andersson, B-G

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Optical and infrared continuum polarization from the interstellar medium is known to generally be due to irregular dust grains aligned with the magnetic field. This provides an important tool to probe the geometry and strength of those fields, particularly if the variations in the grain alignment efficiencies can be understood. Here, we examine polarization variations observed throughout the wall of the Local Bubble, using a large polarization survey of the North Galactic cap (\textit{b}$>30^\circ$) from \citet{berdyugin2014}. These data are analyzed together with archival photometric and spectroscopic data along with the mapping of the Local Bubble by \citet{lallement2003}. We can model the observational data by assuming that the alignment driving mechanism is due to the radiation from the surrounding star field. In particular we find that the fractional polarization is dominated by the light from the OB associations within 150 pc of the sun, but is largely insensitive to the radiation field from red field stars. This behavior is consistent with the expected wavelength dependence of radiative grain alignment theory. We also probe the relative strength of the magnetic field in the wall of the Local Bubble using the Davis-Chandrasekhar-Fermi method. We find evidence for a systematically varying field strength distribution, where the variations in the field are correlated with the variations in grain alignment efficiency, indicating that the relatively higher field strength regions might represent a compression of the wall by the interaction of the outflow in the Local Bubble and the opposing flows by the surrounding OB associations.

Published

2019

19. SOFIA Community Science I: HAWC+ Polarimetry of 30 Doradus

Author

Gordon, M. S., Lopez-Rodriguez, E., Andersson, B. -G., Clarke, M., Coude, S., Moullet, A., Richards, S. N., Shuping, R. Y., Vacca, W., and Yorke, H.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Stratospheric Observatory for Infrared Astronomy (SOFIA) is a Boeing 747SP aircraft modified to accommodate a 2.7 meter gyro-stabilized telescope, which is mainly focused to studying the Universe at infrared wavelengths. As part of the Strategic Director's Discretionary Time (S-DDT) program, SOFIA performs observations of relevant science cases and immediately offers science-ready data products to the astronomical community. We present the first data release of the S-DDT program on far-infrared imaging polarimetric observations of 30 Doradus using the High-resolution Airborne Wideband Camera-Plus (HAWC+) at 53, 89, 154, and 214 micron. We present the status and quality of the observations, an overview of the SOFIA data products, and examples of working with HAWC+ polarimetric data that will enhance the scientific analysis of this, and future, data sets. These observations illustrate the potential influence of magnetic fields and turbulence in a star-forming region within the Tarantula Nebula., Comment: SOFIA Science Center White Paper, 20 pages, 14 figures, 3 tables

Published

2018

20. HAWC+/SOFIA Multiwavelength Polarimetric Observations of OMC-1

Author

Chuss, David T., Andersson, B-G, Bally, John, Dotson, Jessie L., Dowell, C. Darren, Guerra, Jordan A., Harper, Doyal A., Houde, Martin, Jones, Terry Jay, Lazarian, A., Rodriguez, Enrique Lopez, Michail, Joseph M., Morris, Mark R., Novak, Giles, Siah, Javad, Staguhn, Johannes, Vaillancourt, John E., Volpert, C. G., Werner, Michael, Wollack, Edward J., Benford, Dominic J., Berthoud, Marc, Cox, Erin G., Crutcher, Richard, Dale, Daniel A., Fissel, L. M., Goldsmith, Paul F., Hamilton, Ryan T., Hanany, Shaul, Henning, Thomas K., Looney, Leslie W., Moseley, S. Harvey, Santos, Fabio P., Stephens, Ian, Tassis, Konstantinos, Trinh, Christopher Q., Van Camp, Eric, and Ward-Thompson, Derek

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We report new polarimetric and photometric maps of the massive star-forming region OMC-1 using the HAWC+ instrument on the Stratospheric Observatory for Infrared Astronomy (SOFIA). We present continuum polarimetric and photometric measurements of this region at 53, 89, 154, and 214 microns at angular resolutions of 5.1, 7.9, 14.0, and 18.7 arcseconds for the four bands, respectively. The photometric maps enable the computation of improved SEDs for the region. We find that at the longer wavelengths, the inferred magnetic field configuration matches the `hourglass' configuration seen in previous studies, indicating magnetically-regulated star formation. The field morphology differs at the shorter wavelengths. The magnetic field inferred at these wavelengths traces the bipolar structure of the explosive Becklin-Neugebauer (BN)/Kleinman-Low (KL) outflow emerging from OMC-1 behind the Orion Nebula. Using statistical methods to estimate the field strength in the region, we find that the explosion dominates the magnetic field near the center of the feature. Farther out, the magnetic field is close to energetic equilibrium with the ejecta and may be providing confinement to the explosion. The correlation between polarization fraction and the local polarization angle dispersion indicates that the depolarization as a function of unpolarized intensity is a result of intrinsic field geometry as opposed to decreases in grain alignment efficiency in denser regions., Comment: 28 pages, 14 figures, ApJ, accepted

Published

2018

21. The Polstar high resolution spectropolarimetry MIDEX mission

Author

Scowen, Paul A., Gayley, Ken, Ignace, Richard, Neiner, Coralie, Vasudevan, Gopal, Woodruff, Robert, Casini, Roberto, Shultz, Matt, Andersson, B.-G., and Wisniewski, John

Published

2022

22. Finding the UV-Visible Path Forward: Proceedings of the Community Workshop to Plan the Future of UV/Visible Space Astrophysics

Author

Scowen, Paul A., Tripp, Todd, Beasley, Matt, Ardila, David, Andersson, B-G, Apellániz, Jesús Maíz, Barstow, Martin, Bianchi, Luciana, Calzetti, Daniela, Clampin, Mark, Evans, Christopher J., France, Kevin, García, Miriam García, de Castro, Ana Gomez, Harris, Walt, Hartigan, Patrick, Howk, J. Christopher, Hutchings, John, Larruquert, Juan, Lillie, Charles F., Matthews, Gary, McCandliss, Stephan, Polidan, Ron, Perez, Mario R., Rafelski, Marc, Roederer, Ian U., Sana, Hugues, Sanders, Wilton T., Schiminovich, David, Thronson, Harley, Tumlinson, Jason, Vallerga, John, and Wofford, Aida

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We present the science cases and technological discussions that came from the workshop entitled "Finding the UV-Visible Path Forward" held at NASA GSFC June 25-26, 2015. The material presented outlines the compelling science that can be enabled by a next generation space-based observatory dedicated for UV-visible science, the technologies that are available to include in that observatory design, and the range of possible alternative launch approaches that could also enable some of the science. The recommendations to the Cosmic Origins Program Analysis Group from the workshop attendees on possible future development directions are outlined., Comment: Proceedings from Workshop held in June 2015 at NASA GSFC on the Future of UV Astronomy from Space

Published

2016

23. Magnetic field structure of IC 63 and IC 59 associated to H II region - Sh 185

Author

Soam, A., Maheswar, G., Lee, Chang Won, Neha, S., and Andersson, B-G

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Bright-rimmed clouds (BRCs) are formed at the periphery of H$~$II regions as the radiation from the central star interacts with dense gas. The ionization and resulting compression of the clouds may lead to cloud disruption causing secondary star formation depending on the stellar and gas parameters. Here we use R-band polarimetry to probe the plane-of-the sky magnetic field in the two near-by BRCs IC\,59 and IC\,63. Both nebulae are illuminated by $\gamma$ Cas with the direction of ionizing radiation being orientated parallel or perpendicular to the local magnetic field, allowing us to probe the importance of magnetic field pressure in the evolution of BRCs. Because of the proximity of the system ($\sim$200pc) we have acquired a substantial sample of over 500 polarization measurements for stars background to the nebulae. On large scales, the magnetic field geometries of both clouds are anchored to the ambient magnetic field. For IC 63, the magnetic field is aligned parallel to the head-tail morphology of the main condensation, with convex morphology relative to the direction of the ionizing radiation. We estimate the plane of the sky magnetic field strength in IC\,63 to be $\sim90\mu$G. In IC\,59, the projected magnetic field follows the M shape morphology of the cloud. Here, field lines present a concave shape with respect to the direction of the ionizing radiation from $\gamma$ Cas. Comparing our observations to published theoretical models we find good general agreement, supporting the importance of magnetic fields in BRC evolution., Comment: 11 pages, 6 figures, Accepted for publication in MNRAS

Published

2016

24. Grain Alignment: Role of Radiative Torques and Paramagnetic Relaxation

Author

Lazarian, A., Andersson, B-G, and Hoang, Thiem

Subjects

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

Abstract

Polarization arising from aligned dust grains presents a unique opportunity to study magnetic fields in the diffuse interstellar medium and molecular clouds. Polarization from circumstellar regions, accretion disks and comet atmospheres can also be related to aligned dust.To reliably trace magnetic fields quantitative theory of grain alignment is required. Formulating the theory that would correspond to observations was one of the longstanding problems in astrophysics. Lately this problem has been successfully addressed, and in this review we summarize some of the most important theoretical advances in the theory of grain alignment by radiative torques (RATs) that act on realistic irregular dust grains. We discuss an analytical model of RATs and the ways to make RAT alignment more efficient, e.g. through paramagnetic relaxation when grains have inclusions with strong magnetic response. For very small grains for which RAT alignment is inefficient, we also discuss paramagnetic relaxation and a process termed resonance relaxation. We provide an extensive analysis of the observational tests of grain alignment theory., Comment: 37 pages, 23 figures, a chapter published in Polarimetry of Stars and Planetary Systems

Published

2015

25. Charting the Interstellar Magnetic Field causing the Interstellar Boundary Explorer (IBEX) Ribbon of Energetic Neutral Atoms

Author

Frisch, P. C., Berdyugin, A., Piirola, V., Magalhaes, A. M., Seriacopi, D. B., Wiktorowicz, S. J., Andersson, B-G, Funsten, H. O., McComas, D. J., Schwadron, N. A., Slavin, J. D., Hanson, A. J., and Fu, C. -W.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The interstellar magnetic field (ISMF) near the heliosphere is a basic part of the solar neighborhood that can only be studied using polarized starlight. Results of an ongoing survey of polarized starlight are analyzed with the goal of linking the interstellar magnetic field that shapes the heliosphere to the nearby field in interstellar space. New results for the direction of the nearby ISMF, based on a merit function that utilizes polarization position angles, identify several magnetic components. The dominant interstellar field, B_pol, is aligned with the direction L,B= 36.2,49.0 (+/-16.0) degrees and is within 8 degrees of the IBEX Ribbon ISMF direction. Stars tracing B_pol have the same mean distance as stars that do not trace B_pol, but show weaker polarizations consistent with lower column densities of polarizing grains. The variations in the polarization position angle directions indicate a low level of magnetic turbulence. B_pol is found after excluding polarizations that trace a separate magnetic structure that apparently is due to interstellar dust deflected around the heliosphere. Local interstellar cloud velocities relative to the LSR increase with the angles between the LSR velocities and ISMF, indicating that the kinematics of local interstellar material is ordered by the ISMF. Polarization and color excess data are consistent with an extension of Loop I to the solar vicinity. Polarizations are consistent with previous findings of more efficient grain alignment in low column density sightlines. Optical polarization and color excess data indicate the presence of nearby interstellar dust in the BICEP2 field. Color excess E(B-V) indicates an optical extinction of A_V about 0.59 mag in the BICEP2 field, while the polarization data indicate that A_V is larger than 0.09 mag. The IBEX Ribbon ISMF extends to the boundaries of the BICEP2 region., Comment: Submitted to the Astrophysical Journal June 2015

Published

2015

26. A Far-Infrared Observational Test of the Directional Dependence in Radiative Grain Alignment

Author

Vaillancourt, John E. and Andersson, B-G

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The alignment of interstellar dust grains with magnetic fields provides a key method for measuring the strength and morphology of the fields. In turn, this provides a means to study the role of magnetic fields from diffuse gas to dense star-forming regions. The physical mechanism for aligning the grains has been a long-term subject of study and debate. The theory of radiative torques, in which an anisotropic radiation field imparts sufficient torques to align the grains while simultaneously spinning them to high rotational velocities, has passed a number of observational tests. Here we use archival polarization data in dense regions of the Orion molecular cloud (OMC-1) at 100, 350, and $850\,\mu$m to test the prediction that the alignment efficiency is dependent upon the relative orientations of the magnetic field and radiation anisotropy. We find that the expected polarization signal, with a 180-degree period, exists at all wavelengths out to radii of 1.5 arcminutes centered on the BNKL object in OMC-1. The probabilities that these signals would occur due to random noise are low ($\lesssim$1\%), and are lowest towards BNKL compared to the rest of the cloud. Additionally, the relative magnetic field to radiation anisotropy directions accord with theoretical predictions in that they agree to better than 15 degrees at $100\,\mu$m and 4 degrees at $350\,\mu$m., Comment: 16 pages, 4 figures, ApJL, in press

Published

2015

27. Evidence for an interstellar dust filament in the outer heliosheath

Author

Frisch, P. C., Andersson, B-G, Berdyugin, A., Funsten, H. O., Magalhaes, A. M., McComas, D. J., Piirola, V., Schwadron, N. A., Seriacopi, D. B., Slavin, J. D., and Wiktorowicz, S. J.

Subjects

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

Abstract

A recently discovered filament of polarized starlight that traces a coherent magnetic field is shown to have several properties that are consistent with an origin in the outer heliosheath of the heliosphere: (1) The magnetic field that provides the best fit to the polarization position angles is directed within 6.7+-11 degrees of the observed upwind direction of the flow of interstellar neutral helium gas through the heliosphere. (2) The magnetic field is ordered; the component of the variation of the polarization position angles that can be attributed to magnetic turbulence is small. (3) The axis of the elongated filament can be approximated by a line that defines an angle of 80+/-14 degrees with the plane that is formed by the interstellar magnetic field vector and the vector of the inflowing neutral gas (the "BV" plane). We propose that this polarization feature arises from aligned interstellar dust grains in the outer heliosheath where the interstellar plasma and magnetic field are deflected around the heliosphere. The proposed outer heliosheath location of the polarizing grains requires confirmation by modeling grain-propagation through three-dimensional MHD heliosphere models that simultaneously calculate torques on asymmetric dust grains interacting with the heliosphere., Comment: Submitted to Astrophysical Journal January 19, 2015

Published

2015

28. Modeling Grain Alignment by Radiative Torques and Hydrogen Formation Torques in Reflection Nebula

Author

Hoang, Thiem, Lazarian, A, and Andersson, B-G

Subjects

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

Abstract

Reflection nebulae--dense cores--illuminated by surrounding stars offer a unique opportunity to directly test our quantitative model of grain alignment based on radiative torques (RATs) and to explore new effects arising from additional torques. In this paper, we first perform detailed modeling of grain alignment by RATs for the IC 63 reflection nebula illuminated both by a nearby $\gamma$ Cas star and the diffuse interstellar radiation field. We calculate linear polarization $p_{\lambda}$ of background stars by radiatively aligned grains and explore the variation of fractional polarization ($p_{\lambda}/A_V$) with visual extinction $A_{V}$ across the cloud. Our results show that the variation of $p_{V}/A_{V}$ versus $A_{V}$ from the dayside of IC 63 to its center can be represented by a power-law ($p_{V}/A_{V}\propto A_{V}^{\eta}$) with different slopes depending on $A_{V}$. We find a shallow slope $\eta \sim- 0.1$ for $A_{V}< 3$ and a very steep slope $\eta\sim -2$ for $A_{V}> 4$. We then consider the effects of additional torques due to H$_{2}$ formation and model grain alignment by joint action of RATs and H$_2$ torques. We find that $p_{V}/A_{V}$ tends to increase with an increasing magnitude of H$_{2}$ torques. In particular, the theoretical predictions obtained for $p_{V}/A_{V}$ and peak wavelength $\lambda_{\max}$ in this case show an improved agreement with the observational data. Our results reinforce the predictive power of the RAT alignment mechanism in a broad range of environmental conditions and show the effect of pinwheel torques in environments with efficient H$_2$ formation. Physical parameters involved in H$_2$ formation may be constrained using detailed modeling of grain alignment combined with observational data. In addition, we discuss implications of our modeling for interpreting latest observational data by {\it Planck} and other ground-based instruments., Comment: 21 pages, 15 figures, accepted with minor corrections in MNRAS

Published

2014

29. The SOFIA Observatory at the Start of Routine Science Operations : Mission capabilities and performance

Author

Temi, Pasquale, Marcum, Pamela M., Young, Erick, Adams, Joseph D., Adams, Sybil, Andersson, B. -G., Becklin, Eric E., Boogert, Adwin, Brewster, Rick, Burgh, Eric, Cobleigh, Brent R., Culp, Steven, De Buizer, Jim, Dunham, Edward W., Engfer, Christian, Ediss, Geoffrey, Fujieh, Maura, Grashuis, Randy, Gross, Michael, Harmon, Edward, Helton, Andrew, Hoffman, Douglas, Homan, Jeff, Hutwohl, Michael, Jakob, Holger, Jensen, Stephen C., Kaminski, Charles, Kozarsky, Daniel, Krabbe, Alfred, Klein, Randolf, Lammen, Yannick, Lampater, Ulrich, Latter, William B., Le, Jeanette, McKown, Nancy, Melchiorri, Riccardo, Meyer, Allan W., Miles, John, Miller, Walter E., Miller, Scott, Moore, Elizabeth, Nickison, Donald J., Opshaug, Kortney, Pfueller, Enrico, Radomski, James, Rasmussen, John, Reach, William, Reinacher, Andreas, Roellig, Thomas L., Sandell, Goran, Sankrit, Ravi, Savage, Maureen L., Shenoy, Sachindev, Schonfeld, Julie E., Shuping, Ralph Y., Smith, Erin C., Talebi, Ehsan, Teufel, Stefan, Tseng, Ting C., Vacca, William D., Vaillancourt, John, Van Cleve, Jeffrey E., Wiedemann, Manuel, Wolf, Jurgen, Zavala, Eddie, Zeile, Oliver, Zell, Peter T., and Zinnecker, Hans

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Stratospheric Observatory for Infrared Astronomy (SOFIA) has recently concluded a set of engineering flights for Observatory performance evaluation. These in-flight opportunities are viewed as a first comprehensive assessment of the Observatory's performance and are used to guide future development activities, as well as to identify additional Observatory upgrades. Pointing stability was evaluated, including the image motion due to rigid-body and flexible-body telescope modes as well as possible aero-optical image motion. We report on recent improvements in pointing stability by using an active mass damper system installed on the telescope. Measurements and characterization of the shear layer and cavity seeing, as well as image quality evaluation as a function of wavelength have also been performed. Additional tests targeted basic Observatory capabilities and requirements, including pointing accuracy, chopper evaluation and imager sensitivity. This paper reports on the data collected during these flights and presents current SOFIA Observatory performance and characterization., Comment: 13 pages, 13 figure, and 2 tables; accepted by ApJS

Published

2014

30. Project Lyman: Quantifying 11 Gyrs of Metagalactic Ionizing Background Evolution

Author

McCandliss, Stephan R., Andersson, B-G, Bergvall, Nils, Bianchi, Luciana, Bridge, Carrie, Bogosavljevic, Milan, Cohen, Seth H., Deharveng, Jean-Michel, Dixon, W. Van Dyke, Ferguson, Harry, Friedman, Peter, Hayes, Matthew, Howk, J. Christopher, Inoue, Akio, Iwata, Ikuru, Kaiser, Mary Elizabeth, Kriss, Gerard, Kruk, Jeffrey, Kutyrev, Alexander S., Leitherer, Claus, Meurer, Gerhardt R., Prochaska, Jason X., Sonneborn, George, Stiavelli, Massimo, Teplitz, Harry I., and Windhorst, Rogier A

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

The timing and duration of the reionization epoch is crucial to the emergence and evolution of structure in the universe. The relative roles that star-forming galaxies, active galactic nuclei and quasars play in contributing to the metagalactic ionizing background across cosmic time remains uncertain. Deep quasar counts provide insights into their role, but the potentially crucial contribution from star-formation is highly uncertain due to our poor understanding of the processes that allow ionizing radiation to escape into the intergalactic medium (IGM). The fraction of ionizing photons that escape from star-forming galaxies is a fundamental free parameter used in models to "fine-tune" the timing and duration of the reionization epoch that occurred somewhere between 13.4 and 12.7 Gyrs ago (redshifts between 12 > z > 6). However, direct observation of Lyman continuum (LyC) photons emitted below the rest frame \ion{H}{1} ionization edge at 912 \AA\ is increasingly improbable at redshifts z > 3, due to the steady increase of intervening Lyman limit systems towards high z. Thus UV and U-band optical bandpasses provide the only hope for direct, up close and in depth, observations of the types of environment that favor LyC escape. By quantifying the evolution over the past 11 billion years (z < 3) of the relationships between LyC escape and local and global parameters ..., we can provide definitive information on the LyC escape fraction that is so crucial to answering the question of, how did the universe come to be ionized? Here we provide estimates of the ionizing continuum flux emitted by "characteristic" (L_{uv}^*) star-forming galaxies as a function of look back time and escape fraction, finding that at z = 1 (7.6 Gyrs ago) L_{uv}^* galaxies with an escape fraction of 1% have a flux of 10^{-19} ergs cm^{-2} s^{-1} \AA^{-1}., Comment: Science white paper submitted to NASA Solicitation NNH12ZDA008L: Science Objectives and Requirements for the Next NASA UV/Visible Astrophysics Mission Concepts. 6 pages 4 figures - (abstract abridged)

Published

2012

31. Interstellar Grain Alignment - Observational Status

Author

Andersson, B. -G.

Subjects

Astrophysics - Galaxy Astrophysics

Abstract

Interstellar polarization in the optical/infrared has long been known to be due to asymmetrical dust grains aligned with the magnetic field and can potentially provide a resource effective way to probe both the topology and strength of the magnetic field. However, to do so with confidence, the physics and variability of the alignment mechanisms must be quantitatively understood. The last 15 years has seen major advancements in both the theoretical and observational understanding of this problem. I here review the current state of the observational constraints on the grain alignment physics. While none of the three classes of proposed grain alignment theories: mechanical, paramagnetic relaxation and radiative alignment torque, can be viewed as having been empirically confirmed, the first two have failed some critical observational tests, whereas the latter has recently been given specific observational support and must now be viewed as the leading candidate., Comment: To appear in "Magnetic Fields in Diffuse Media", A. Lazarian & E.M. de Gouveia Dal Pino eds

Published

2012

32. The Interstellar Magnetic Field Close to the Sun II

Author

Frisch, P. C., Andersson, B-G, Berdyugin, A., Piirola, V., DeMajistre, R., Funsten, H. O., Magalhaes, A. M., Seriacopi, D. B., McComas, D. J., Schwadron, N. A., Slavin, J. D., and Wiktorowicz, S. J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

A key indicator of the galactic environment of the Sun is provided by the magnetic field in the interstellar medium (ISM), which influences the shape of the heliosphere. The direction of the nearby interstellar magnetic field (ISMF) is determined from starlight polarized in the ISM. The local ISMF direction is found from the ISMF direction that provides the best fit to the polarization position angles of nearby stars, using weighted fits to the data. New polarization observations are included in the analysis. The best-fitting ISMF is close to the magnetic field direction traced by the center of the Ribbon of energetic neutral atoms, discovered by the Interstellar Boundary Explorer spacecraft. Both the magnetic field and kinematics of the local ISM are consistent with a scenario where the local ISM is a fragment of the Loop I superbubble. An ordered component of the local ISMF is found in a region where PlanetPol data show that polarization increases with distance. It extends to within 8 parsecs of the Sun and implies a weak curvature in the nearby ISMF. Variations from the ordered component indicate turbulence of +/-23 deg. The local ISMF is generally uniform in direction over spatial scales of 8-200 parsecs so that it appears similar to interarm magnetic fields. The best-fitting ISMF direction also agrees with the position of tail-in spatial asymmetries in GeV-TeV galactic cosmic rays. The peculiar geometrical relation between the CMB dipole moment, the heliosphere nose, and local ISMF is supported by these new results. Radiative torques are not likely to play a role in grain alignment for these polarizations., Comment: Accepted by the Astrophysical Journal. Changes from version 1 include addition of an appendix and fixing typos

Published

2012

33. Early Science with SOFIA, the Stratospheric Observatory for Infrared Astronomy

Author

Young, E. T., Becklin, E. E., Marcum, P. M., Roellig, T. L., De Buizer, J. M., Herter, T. L., Güsten, R., Dunham, E. W., Temi, P., Andersson, B. -G., Backman, D., Burgdorf, M., Caroff, L. J., Casey, S. C., Davidson, J. A., Erickson, E. F., Gehrz, R. D., Harper, D. A., Harvey, P. M., Helton, L. A., Horner, S. D., Howard, C. D., Klein, R., Krabbe, A., McLean, I. S., Meyer, A. W., Miles, J. W., Morris, M. R., Reach, W. T., Rho, J., Richter, M. J., Roeser, H. -P., Sandell, G., Sankrit, R., Savage, M. L., Smith, E. C., Shuping, R. Y., Vacca, W. D., Vaillancourt, J. E., Wolf, J., and Zinnecker, H.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Stratospheric Observatory for Infrared Astronomy (SOFIA) is an airborne observatory consisting of a specially modified Boeing 747SP with a 2.7-m telescope, flying at altitudes as high as 13.7 km (45,000 ft). Designed to observe at wavelengths from 0.3 micron to 1.6 mm, SOFIA operates above 99.8 % of the water vapor that obscures much of the infrared and submillimeter. SOFIA has seven science instruments under development, including an occultation photometer, near-, mid-, and far-infrared cameras, infrared spectrometers, and heterodyne receivers. SOFIA, a joint project between NASA and the German Aerospace Center DLR, began initial science flights in 2010 December, and has conducted 30 science flights in the subsequent year. During this early science period three instruments have flown: the mid-infrared camera FORCAST, the heterodyne spectrometer GREAT, and the occultation photometer HIPO. This article provides an overview of the observatory and its early performance., Comment: 7 pages, 4 figures; Accepted for publication by the Astrophysical Journal Letters

Published

2012

34. Angle-dependent radiative grain alignment; Confirmation of a magnetic field - radiation anisotropy angle dependence on the efficiency of interstellar grain alignment

Author

Andersson, B-G, Pintado, O., Potter, S. B., Straizys, V., and Charcos-Llorens, M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Interstellar grain alignment studies are currently experiencing a renaissance due to the development of a new quantitative theory based on Radiative Alignment Torques (RAT). One of the distinguishing predictions of this theory is a dependence of the grain alignment efficiency on the relative angle ($\Psi$) between the magnetic field and the anisotropy direction of the radiation field. In an earlier study we found observational evidence for such an effect from observations of the polarization around the star HD 97300 in the Chamaeleon I cloud. However, due to the large uncertainties in the measured visual extinctions, the result was uncertain. By acquiring explicit spectral classification of the polarization targets, we have sought to perform a more precise reanalysis of the existing polarimetry data. We have obtained new spectral types for the stars in our for our polarization sample, which we combine with photometric data from the literature to derive accurate visual extinctions for our sample of background field stars. This allows a high accuracy test of the grain alignment efficiency as a function of $\Psi$. We confirm and improve the measured accuracy of the variability of the grain alignment efficiency with $\Psi$, seen in the earlier study. We note that the grain temperature (heating) also shows a dependence on $\Psi$ which we interpret as a natural effect of the projection of the grain surface to the illuminating radiation source. This dependence also allows us to derive an estimate of the fraction of aligned grains in the cloud., Comment: 7 pages, 4 figures Accepted for publication in A&A

Published

2011

35. Reducing low signal-to-noise FUSE spectra: confirmation of Lyman continuum escape from Haro 11

Author

Leitet, E., Bergvall, N., Piskunov, N., and Andersson, B-G

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Galaxies are believed to be the main providers of Lyman continuum (LyC) photons during the early phases of the cosmic reionization. Little is known however, when it comes to escape fractions and the mechanisms behind the leakage. To learn more one may look at local objects, but so far only one low-z galaxy has shown any sign of emitting LyC radiation. With data from the Far Ultraviolet Spectroscopic Explorer (FUSE), Bergvall et al. (2006) found an absolute escape fraction of ionizing photons (f_esc) of 4-10% for the blue compact galaxy Haro 11. However, using a newer version of the reduction pipeline on the same data set, Grimes et al. (2007) could not confirm this and derived an upper limit of f_esc \leq 2%. Here, using the last version of the pipeline CalFUSE v3.2, we aim at settling the question if Haro 11 is emitting ionizing radiation to a significant level or not. We also investigate the performance of the reduction pipeline for faint targets such as Haro 11. At these faint flux levels both FUSE and CalFUSE are pushed to their limits, and a detailed analysis was undertaken. We show that non-simultaneous background estimates are insuffient when working with low signal-to-noise data, and a new background model was developed based on a direct fit to the detector response. Applying the new background fit, a significant signal in the LyC emerged in both detector segments covering these wavelengths. Thus, the leakage is confirmed with a flux density of f_900=4.0 *10^{-15} erg/s/cm^2/{\AA} (S/N=4.6), measured on the airglow free regions in the LyC for the night only data. This corresponds to an absolute escape fraction of ionizing photons for Haro 11 of f_esc=3.3 \pm 0.7%. The results were confirmed by investigating the 2D data, the count rates and the residual flux in CII(1036{\AA})., Comment: Accepted for publication in A&A. 15 pages, 13 figures

Published

2011

36. On the magnetic field through the Upper Centaurs-Lupus Super bubble, in the vicinity of the Southern Coalsack

Author

Bhat, N. D. Ramesh and Andersson, B-G

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The Southern Coalsack is located in the interior of the Upper Centaurus-Lupus (UCL) super bubble and shows many traits that point to a much more energetic environment than might be expected from a dark, starless molecular cloud. A hot, X-ray emitting, envelope surrounds the cloud, it has a very strong internal magnetic field and its darkest core seems to be on astronomical time scales "just about" to start forming stars. In order to probe the magnetic environment of the cloud and to compare with the optical/near infrared polarimetry-based field estimates for the cloud, we have acquired Faraday Rotation measurements towards the pulsar PSR J1210$-$6550, probing the magnetic field in the vicinity of the cloud, and a comparison target, PSR J1435$-$5954, at a similar line of sight distance but several degrees from the cloud. Both lines of sight hence primarily probe the UCL super bubble. The earlier estimates of the magnetic field inside the Coalsack, using the Chandrasekhar-Fermi method on optical and near-infrared polarimetry, yield B$_\perp$ = 64--93 $\mu$G. However, even though PSR J1210$-$6550 is located only $\sim$30 arc minutes from the (CO) edge of the cloud, the measured field strength is only B$_\parallel$ = 1.1$\pm$0.2 $\mu$G. While thus yielding a very high field contrast to the cloud we argue that this might be understood as due to the effects on the cloud by the super bubble., Comment: 8 pages, 6 figures, Accepted for publication in ApJ

Published

2010

37. Comparisons of the Interstellar Magnetic Field Directions obtained from the IBEX Ribbon and Interstellar Polarizations

Author

Frisch, Priscilla C., Andersson, B-G, Berdyugin, Andrei, Funsten, Herbert O., Magalhaes, Mario, McComas, David J., Piirola, Vilppu, Schwadron, Nathan A., Slavin, Jonathan D., and Wiktorowicz, Sloane J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Variations in the spatial configuration of the interstellar magnetic field (ISMF) near the Sun can be constrained by comparing the ISMF direction at the heliosphere found from the Interstellar Boundary Explorer spacecraft (IBEX) observations of a 'Ribbon' of energetic neutral atoms (ENAs), with the ISMF direction derived from optical polarization data for stars within ~40 pc. Using interstellar polarization observations towards ~30 nearby stars within 90 deg of the heliosphere nose, we find that the best fits to the polarization position angles are obtained for a magnetic pole directed towards ecliptic coordinates of lambda, beta 263 deg, 37 deg (or galactic coordinates of L,B 38 deg, 23deg), with uncertainties of +/- 35 deg, based on the broad minimum of the best fits and the range of data quality. This magnetic pole is 33 deg from the magnetic pole that is defined by the center of the arc of the ENA Ribbon. The IBEX ENA ribbon is seen in sightlines that are perpendicular to the ISMF as it drapes over the heliosphere. The similarity of the polarization and Ribbon directions for the local ISMF suggest that the local field is coherent over scale sizes of tens of parsecs. The ISMF vector direction is nearly perpendicular to the flow of local ISM through the local standard of rest, supporting a possible local ISM origin related to an evolved expanding magnetized shell. The local ISMF direction is found to have a curious geometry with respect to the cosmic microwave background dipole moment., Comment: Accepted for publication in the Astrophysical Journal. 25 pages, 5 figures

Published

2010

38. O/IR Polarimetry for the 2010 Decade (PSF): Science at the Edge, Sharp Tools for All

Author

Clemens, Dan, Andersson, B. -G., Adamson, Andy, Axon, David, De Buizer, James, Cellino, Alberto, Hines, Dean C., Hoffman, Jennifer L., Jones, Terry Jay, Lazarian, Alexander, Magalhaes, Antonio Mario, Masiero, Joseph, Packham, Chris, Perrin, Marshall, Rodrigues, Claudia Vilega, Shinnaga, Hiroko, Sparks, William, Vaillancourt, John, and Whittet, Doug

Subjects

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

Abstract

Science opportunities and recommendations concerning optical/infrared polarimetry for the upcoming decade in the fields of planetary systems and star formation. Community-based White Paper to Astro2010 in response to the call for such papers., Comment: White Paper to the Planetary Systems and Star Formation (PSF) Science Frontiers Panel of the Astro2010 Decadal Survey

Published

2009

39. Understanding Polarized Foreground from Dust: Towards Reliable Measurements of CMB Polarization

Author

Lazarian, Alex, Clemens, Dan, Adamson, Andy, Andersson, B. -G., Axon, David, De Buizer, James, Cellino, Alberto, Hines, Dean C., Hoffman, Jennifer L., Jones, Terry Jay, Magalhaes, Antonio Mario, Masiero, Joseph, Packham, Chris, Perrin, Marshall, Rodrigues, Claudia Vilega, Shinnaga, Hiroko, Sparks, William, Vaillancourt, John, and Whittet, Doug

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Science opportunities and recommendations concerning optical/infrared polarimetry for the upcoming decade in the field of cosmology. Community-based White Paper to Astro2010 in response to the call for such papers., Comment: White Paper to the Cosmology and Fundamental Physics (GCT) Science Frontiers Panel of the Astro2010 Decadal Survey

Published

2009

40. O/IR Polarimetry for the 2010 Decade (SSE): Science at the Edge, Sharp Tools for All

Author

Hoffman, Jennifer L., Hines, Dean C., Adamson, Andy, Andersson, B. -G., Bjorkman, Karen, Chornock, Ryan, Clemens, Dan, De Buizer, James, Elias II, Nicholas M., Ignace, Richard, Jones, Terry Jay, Lazarian, Alexander, Leonard, Douglas C., Magalhaes, Antonio Mario, Perrin, Marshall, Rodrigues, Claudia Vilega, Shinnaga, Hiroko, Sparks, William, and Wang, Lifan

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Galaxy Astrophysics

Abstract

Science opportunities and recommendations concerning optical/infrared polarimetry for the upcoming decade in the fields of stars and stellar evolution. Community-based White Paper to Astro2010 in response to the call for such papers., Comment: White Paper to the Stars and Stellar Evolution (SSE) Science Frontiers Panel of the Astro2010 Decadal Survey

Published

2009

41. O/IR Polarimetry for the 2010 Decade (CGT): Science at the Edge, Sharp Tools for All

Author

Hines, Dean C., Packham, Christopher C., Adamson, Andy, Andersson, B. -G., Antonucci, Robert, Axon, David, De Buizer, James, Cellino, Alberto, Clemens, Dan, Hoffman, Jennifer L., Kishimoto, Makoto, Jones, Terry Jay, Lazarian, Alexander, Magalhaes, Antonio Mario, Masiero, Joseph, Perlman, Eric S., Perrin, Marshall, Rodrigues, Claudia Vilega, Shinnaga, Hiroko, Sparks, William, and Whittet, Doug

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Science opportunities and recommendations concerning optical/infrared polarimetry for the upcoming decade in the field of extragalactic astrophysics. Community-based White Paper to Astro2010 in response to the call for such papers., Comment: White Paper to the Galaxies Across Cosmic Time (GCT) Science Frontiers Panel of the Astro2010 Decadal Survey

Published

2009

42. O/IR Polarimetry for the 2010 Decade (GAN): Science at the Edge, Sharp Tools for All

Author

Clemens, Dan, Andersson, B. -G., Adamson, Andy, Axon, David, De Buizer, James, Cellino, Alberto, Hines, Dean C., Hoffman, Jennifer L., Jones, Terry Jay, Lazarian, Alexander, Magalhaes, Antonio Mario, Masiero, Joseph, Packham, Chris, Perrin, Marshall, Rodrigues, Claudia Vilega, Shinnaga, Hiroko, Sparks, William, Vaillancourt, John, and Whittet, Doug

Subjects

Astrophysics - Galaxy Astrophysics

Abstract

Science opportunities and recommendations concerning optical/infrared polarimetry for the upcoming decade in the field of Galactic science. Community-based White Paper to Astro2010 in response to the call for such papers., Comment: White Paper to the Galactic Neighborhood (GAN) Science Frontiers Panel of the Astro2010 Decadal Survey

Published

2009

43. CO emission and variable CH and CH+ absorption towards HD34078: evidence for a nascent bow shock ?

Author

Boisse, P., Rollinde, E., Hily-Blant, P., Pety, J., Federman, S. R., Sheffer, Y., Forets, G. Pineau des, Roueff, E., Andersson, B-G, and Hebrard, G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The runaway star HD34078, initially selected to investigate small scale structure in a foreground diffuse cloud has been shown to be surrounded by highly excited H2. We first search for an association between the foreground cloud and HD34078. Second, we extend previous investigations of temporal absorption line variations (CH, CH+, H2) in order to better characterize them. We have mapped the CO(2-1) emission at 12 arcsec resolution around HD34078's position, using the 30 m IRAM antenna. The follow-up of CH and CH+ absorption lines has been extended over 5 more years. In parallel, CH absorption towards the reddened star Zeta Per have been monitored to check the homogeneity of our measurements. Three more FUSE spectra have been obtained to search for N(H2) variations. CO observations show a pronounced maximum near HD34078's position, clearly indicating that the star and diffuse cloud are associated. The optical spectra confirm the reality of strong, rapid and correlated CH and CH+ fluctuations. On the other hand, N(H2, J=0) has varied by less than 5 % over 4 years. We also discard N(CH) variations towards Zeta Per at scales less than 20 AU. Observational constraints from this work and from 24 micron dust emission appear to be consistent with H2 excitation but inconsistent with steady-state bow shock models and rather suggest that the shell of compressed gas surrounding HD34078, is seen at an early stage of the interaction. The CH and CH+ time variations as well as their large abundances are likely due to chemical structure in the shocked gas layer located at the stellar wind/ambient cloud interface. Finally, the lack of variations for both N(H2, J=0) towards HD34078 and N(CH) towards Zeta Per suggests that quiescent molecular gas is not subject to pronounced small-scale structure., Comment: 19 pages, 15 figures, accepted for publication in A&A

Published

2009

44. Submillimeter-wavelength Polarimetry of IRC+10216

Author

Andersson, B-G., primary, Karoly, Janik, additional, Bastien, Pierre, additional, Soam, Archana, additional, Coudé, Simon, additional, Tahani, Mehrnoosh, additional, Gordon, Michael S., additional, and Fox-Middleton, Sydney, additional

Published

2024

45. Project Lyman

Author

McCandliss, Stephan R., Kruk, Jeffrey W., Blair, William P., Kaiser, Mary Elizabeth, Feldman, Paul D., Meurer, Gerhardt R., Dixon, William V., Sahnow, David J., Neufeld, David A., Lupu, Roxana E., Fleming, Brian, Smee, Stephen A., Andersson, B. G., Moseley, Samuel H., Kutyrev, Alexander S., Li, Mary J., Sonneborn, George, Siegmund, Oswald H. W., Vallerga, John V., Welsh, Barry Y., Stiavelli, Massimo, Windhorst, Rogier A., and Shapley, Alice E.

Subjects

Astrophysics

Abstract

We explore the design of a space mission, Project Lyman, which has the goal of quantifying the ionization history of the universe from the present epoch to a redshift of z ~ 3. Observations from WMAP and SDSS show that before a redshift of z >~ 6 the first collapsed objects, possibly dwarf galaxies, emitted Lyman continuum (LyC) radiation shortward of 912 A, reionizing most of the universe. How LyC escapes from galactic environments, whether it induces positive or negative feedback on the local and global collapse of structures, and the role played by clumping, molecules, metallicity and dust are major unanswered theoretical questions, requiring observational constraint. Numerous intervening Lyman limit systems, which frustrate the detection of LyC from high z objects, thin below z ~ 3 where there are a few objects with apparently very high fesc. At low z there are only controversial detections and a handful of upper limits. A wide-field multi-object spectroscopic survey with moderate spectral and spatial resolution can quantify fesc within diverse spatially resolved galactic environments over redshifts with significant evolution in galaxy assemblage and quasar activity. It can also calibrate LyC escape against Ly-alpha escape, providing an essential tool to JWST for probing the beginnings of reionization. We present calculations showing the evolution of the characteristic apparent magnitude of star-forming galaxy luminosity functions at 900 A, as a function of redshift and assumed escape fraction to determine the required aperture for detecting LyC. We review our efforts to build a pathfinding dual order multi-object spectro/telescope with a (0.5deg)^2 field-of-view, using a GSFC microshutter array, and crossed delay-line micro-channel plate detector., Comment: SPIE oral paper 7011-76 presented at Astronomical Telescopes 2008 - 23 -- 28 June Marseille, France, 12 page, 5 figures

Published

2008

46. Observational Constraints on Interstellar Grain Alignment

Author

Andersson, B-G and Potter, S. B.

Subjects

Astrophysics

Abstract

We present new multicolor photo-polarimetry of stars behind the Southern Coalsack. Analyzed together with multiband polarization data from the literature, probing the Chamaeleon I, Musca, rho Opiuchus, R CrA and Taurus clouds, we show that the wavelength of maximum polarization (lambda_max) is linearly correlated with the radiation environment of the grains. Using Far-Infrared emission data, we show that the large scatter seen in previous studies of lambda_max as a function of A_V is primarily due to line of sight effects causing some A_V measurements to not be a good tracer of the extinction (radiation field strength) seen by the grains being probed. The derived slopes in lambda_max vs. A_V, for the individual clouds, are consistent with a common value, while the zero intercepts scale with the average values of the ratios of total-to-selective extinction (R_V) for the individual clouds. Within each cloud we do not find direct correlations between lambda_max and R_V. The positive slope in consistent with recent developments in theory and indicating alignment driven by the radiation field. The present data cannot conclusively differentiate between direct radiative torques and alignment driven by H_2 formation. However, the small values of lambda_max(A_V=0), seen in several clouds, suggest a role for the latter, at least at the cloud surfaces. The scatter in the lambda_max vs. A_V relation is found to be associated with the characteristics of the embedded Young Stellar Objects (YSO) in the clouds. We propose that this is partially due to locally increased plasma damping of the grain rotation caused by X-rays from the YSOs., Comment: Accepted for publication in the Astrophysical Journal

Published

2007

47. Molecular and Atomic Excitation Stratification in the Outflow of the Planetary Nebula M27

Author

McCandliss, Stephan R., France, Kevin, Lupu, Roxana E., Burgh, Eric B., Sembach, Kenneth, Kruk, Jeffrey, Andersson, B. -G., and Feldman, Paul D.

Subjects

Astrophysics

Abstract

High resolution spectroscopy with FUSE and STIS of atomic and molecular velocity stratification in the nebular outflow of M27 challenge models for the abundance kinematics in planetary nebulae. The simple picture of a very high speed (~ 1000 km/s), high ionization, radiation driven stellar wind surrounded by a slower (~ 10 km/s) mostly molecular outflow, with low ionization and neutral atomic species residing at the wind interaction interface, is not supported... We find ...there is a fast (33 -- 65 km/s) low ionization zone, surrounding a slower (<~ 33 km/s) high ionization zone and, at the transition velocity (33 km/s), vibrationally excited H_2 is intermixed with a predominately neutral atomic medium... Far-UV continuum fluorescence of H_2 is not detected, but Lyman alpha (Lya) fluorescence is present. The diffuse nebular medium is inhospitable to molecules and dust. Maintaining the modest equilibrium abundance of H_2 (N(H_2)/N(HI) << 1) in the diffuse nebular medium requires a source of H_2, mostly likely the clumpy nebular medium. The stellar SED shows no signs of reddening (E(B-V) < 0.01), but paradoxically measurements of Ha/Hb ... indicate E(B-V) ~ 0.1. ...the apparent enhancement of Ha/Hb in the absence of dust may result from a two step process of H_2 ionization by Lyman continuum (Lyc) photons followed by dissociative recombination (H_2 + gamma -> H_2^+ + e -> H(1s) + H (nl)), which ultimately produces fluorescence of Ha and Lya. In the optically thin limit at the inferred radius of the velocity transition we find dissociation of H_2 by stellar Lyc photons is an order of magnitude more efficient than spontaneous dissociation by far-UV photons. We suggest that the importance of this H_2 destruction process in HII regions has been overlooked., Comment: In emulateapj 2 column, 28 pages total, 18 figures. Accepted for publication in the Astrophysical Journal on 5 January 2007. Abstract abridged

Published

2007

48. First detection of Lyman continuum escape from a local starburst galaxy

Author

Bergvall, Nils, Zackrisson, Erik, Andersson, B-G, Arnberg, Daniel, Masegosa, Josefa, and Ostlin, Goran

Subjects

Astrophysics

Abstract

The dominating reionization source in the young universe has yet to be identified. Possible candidates include metal poor starburst dwarf galaxies of which the Blue Compact Galaxy Haro 11 may represent a local counterpart. Using the Far Ultraviolet Spectroscopic Explorer (FUSE) we obtained spectra of Haro 11 to search for leaking ionizing radiation. A weak signal shortwards of the Lyman break is identified as Lyman continuum (LyC) emission escaping from the ongoing starburst. From profile fitting to weak metal lines we derive column densities of the low ionization species. Adopting a metallicity typical of the H II regions of Haro 11, the corresponding H I column density is optically thick in the LyC. Therefore most of the LyC photons must escape through transparent holes in the interstellar medium. Using spectral evolutionary models we constrain the escape fraction of the produced LyC photons to between 4 and 10%, assuming a normal Salpeter IMF. We argue that in a hierarchical galaxy formation scenario, this allows for a substantial contribution to cosmic reionization by starburst dwarf galaxies at high redshifts., Comment: Accepted for publication in Astronomy and Astrophysics

Published

2006

49. Cloud Structure and Physical Conditions in Star-Forming Regions from Optical Observations. II. Analysis

Author

Pan, K., Federman, S. R., Sheffer, Y., and Andersson, B. -G.

Subjects

Astrophysics

Abstract

To complement the optical absorption-line survey of diffuse molecular gas in Paper I, we obtained and analyzed far ultraviolet H$_2$ and CO data on lines of sight toward stars in Cep OB2 and Cep OB3. Possible correlations between column densities of different species for individual velocity components, not total columns along a line of sight as in the past, were examined and were interpreted in terms of cloud structure. The analysis reveals that there are two kinds of CH in diffuse molecular gas: CN-like CH and CH$^+$-like CH. Evidence is provided that CO is also associated with CN in diffuse molecular clouds. Different species are distributed according to gas density in the diffuse molecular gas. Both calcium and potassium may be depleted onto grains in high density gas, but with different dependences on local gas density. Gas densities for components where CN was detected were inferred from a chemical model. Analysis of cloud structure indicates that our data are generally consistent with the large-scale structure suggested by maps of CO millimeter-wave emission. On small scales, the gas density is seen to vary by factors greater than 5.0 over scales of $\sim$ 10,000 AU. The relationships between column densities of CO and CH with that of H$_2$ along a line of sight show similar slopes for the gas toward Cep OB2 and OB3, but the CO/H$_2$ and CH/H$_2$ ratios tend to differ which we ascribe to variation in average density along the line of sight., Comment: 49 pages, 9 figures, accepted by ApJ

Published

2005

50. Fluorescent Molecular Hydrogen Emission in IC 63: FUSE, HUT, and Rocket Observations

Author

France, K., Andersson, B-G, McCandliss, S. R., and Feldman, P. D.

Subjects

Astrophysics

Abstract

We present far-ultraviolet observations of IC 63, an emission/reflection nebula illuminated by the B0.5IV star gamma Cassiopeia, located 1.3 pc from the nebula. Molecular hydrogen fluorescence was detected first in IC 63 by IUE and later at shorter wavelengths by ORFEUS. Here we present Far Ultraviolet Spectroscopic Explorer (FUSE) observations towards three locations in the nebula, complemented by Hopkins Ultraviolet Telescope (HUT) data on the central nebular position. In addition, we present a sounding rocket calibration of a FUSE spectrum of gamma Cas. Molecular hydrogen fluorescence is detected in all three FUSE pointings. The intensity of this emission as well as the contributions from other species are seen to vary with position. The absolute flux calibration of the sounding rocket data allows us to reliably predict the radiation field incident on IC 63. We use these data to test models of the fluorescent process. Our modeling resolves the perceived discrepancy between the existing ultraviolet observations and achieves a satisfactory agreement with the H_2 rotational structure observed with FUSE., Comment: 7 pages, 6 figures, using emulateapj. Accepted by ApJ

Published

2005