Submillimetre polarization and constraints on dust grain alignment

Jane Sophia Greaves; WS Holland; NR Minchin; AG Murray; JA Stevens

Submillimetre polarization and constraints on dust grain alignment

Jane Sophia Greaves, WS Holland, NR Minchin, AG Murray, JA Stevens

School of Physics and Astronomy

Research output: Contribution to journal › Article › peer-review

Abstract

polarization at 800 and 1100 mu m has been observed in the star-forming regions Mon R2, DR21 and W3-IRS4. These data have been used to test proposed mechanisms for producing polarized dust emission in the submillimetre. It was found that illumination effects are not sufficient to explain the observed polarization, and that some degree of grain alignment is required. In general, mechanical alignment (via collisions with molecules) and radiative alignment of asymmetrical grains are the most probable mechanisms.

The degrees and directions of polarization observed in DR21 are found to be wavelength dependent at 800 to 1100 mu m. A search of previous JCMT polarimetry results shows that for about half the sources observed, p(1100) is greater than p(800), while in most of the other sources the two values of p are in agreement. A possible explanation for this result is that there are two (or more) non-cospatial grain populations along the line of sight, with different degrees of polarizability and different opacity indices. This can produce bias effects in the polarization percentage and position angle. Thus the choice of wavelength is not immaterial in dust emission polarimetry, as is commonly believed.

Original language	English
Pages (from-to)	668-674
Number of pages	7
Journal	Astronomy & Astrophysics
Volume	344
Publication status	Published - Apr 1999

Keywords

ISM : magnetic fields
polarization
YOUNG STELLAR OBJECTS
T-TAURI STARS
CIRCUMSTELLAR MAGNETIC-FIELD
ANISOTROPIC RADIATION-FIELD
FAR-INFRARED POLARIMETRY
INTERSTELLAR GRAINS
CLOUD CORE
THERMAL EMISSION
MOLECULAR CLOUDS
MASS PROTOSTARS

Cite this

@article{4f09d916c7854891a303273049255c54,

title = "Submillimetre polarization and constraints on dust grain alignment",

abstract = "polarization at 800 and 1100 mu m has been observed in the star-forming regions Mon R2, DR21 and W3-IRS4. These data have been used to test proposed mechanisms for producing polarized dust emission in the submillimetre. It was found that illumination effects are not sufficient to explain the observed polarization, and that some degree of grain alignment is required. In general, mechanical alignment (via collisions with molecules) and radiative alignment of asymmetrical grains are the most probable mechanisms.The degrees and directions of polarization observed in DR21 are found to be wavelength dependent at 800 to 1100 mu m. A search of previous JCMT polarimetry results shows that for about half the sources observed, p(1100) is greater than p(800), while in most of the other sources the two values of p are in agreement. A possible explanation for this result is that there are two (or more) non-cospatial grain populations along the line of sight, with different degrees of polarizability and different opacity indices. This can produce bias effects in the polarization percentage and position angle. Thus the choice of wavelength is not immaterial in dust emission polarimetry, as is commonly believed.",

keywords = "ISM : magnetic fields, polarization, YOUNG STELLAR OBJECTS, T-TAURI STARS, CIRCUMSTELLAR MAGNETIC-FIELD, ANISOTROPIC RADIATION-FIELD, FAR-INFRARED POLARIMETRY, INTERSTELLAR GRAINS, CLOUD CORE, THERMAL EMISSION, MOLECULAR CLOUDS, MASS PROTOSTARS",

author = "Greaves, {Jane Sophia} and WS Holland and NR Minchin and AG Murray and JA Stevens",

year = "1999",

month = apr,

language = "English",

volume = "344",

pages = "668--674",

journal = "Astronomy & Astrophysics",

issn = "0004-6361",

publisher = "EDP SCIENCES S A",

}

TY - JOUR

T1 - Submillimetre polarization and constraints on dust grain alignment

AU - Greaves, Jane Sophia

AU - Holland, WS

AU - Minchin, NR

AU - Murray, AG

AU - Stevens, JA

PY - 1999/4

Y1 - 1999/4

N2 - polarization at 800 and 1100 mu m has been observed in the star-forming regions Mon R2, DR21 and W3-IRS4. These data have been used to test proposed mechanisms for producing polarized dust emission in the submillimetre. It was found that illumination effects are not sufficient to explain the observed polarization, and that some degree of grain alignment is required. In general, mechanical alignment (via collisions with molecules) and radiative alignment of asymmetrical grains are the most probable mechanisms.The degrees and directions of polarization observed in DR21 are found to be wavelength dependent at 800 to 1100 mu m. A search of previous JCMT polarimetry results shows that for about half the sources observed, p(1100) is greater than p(800), while in most of the other sources the two values of p are in agreement. A possible explanation for this result is that there are two (or more) non-cospatial grain populations along the line of sight, with different degrees of polarizability and different opacity indices. This can produce bias effects in the polarization percentage and position angle. Thus the choice of wavelength is not immaterial in dust emission polarimetry, as is commonly believed.

AB - polarization at 800 and 1100 mu m has been observed in the star-forming regions Mon R2, DR21 and W3-IRS4. These data have been used to test proposed mechanisms for producing polarized dust emission in the submillimetre. It was found that illumination effects are not sufficient to explain the observed polarization, and that some degree of grain alignment is required. In general, mechanical alignment (via collisions with molecules) and radiative alignment of asymmetrical grains are the most probable mechanisms.The degrees and directions of polarization observed in DR21 are found to be wavelength dependent at 800 to 1100 mu m. A search of previous JCMT polarimetry results shows that for about half the sources observed, p(1100) is greater than p(800), while in most of the other sources the two values of p are in agreement. A possible explanation for this result is that there are two (or more) non-cospatial grain populations along the line of sight, with different degrees of polarizability and different opacity indices. This can produce bias effects in the polarization percentage and position angle. Thus the choice of wavelength is not immaterial in dust emission polarimetry, as is commonly believed.

KW - ISM : magnetic fields

KW - polarization

KW - YOUNG STELLAR OBJECTS

KW - T-TAURI STARS

KW - CIRCUMSTELLAR MAGNETIC-FIELD

KW - ANISOTROPIC RADIATION-FIELD

KW - FAR-INFRARED POLARIMETRY

KW - INTERSTELLAR GRAINS

KW - CLOUD CORE

KW - THERMAL EMISSION

KW - MOLECULAR CLOUDS

KW - MASS PROTOSTARS

UR - http://www.scopus.com/inward/record.url?scp=0342596397&partnerID=8YFLogxK

UR - http://aa.springer.de/bibs/9344002/2300668/small.htm

M3 - Article

SN - 0004-6361

VL - 344

SP - 668

EP - 674

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

ER -

Submillimetre polarization and constraints on dust grain alignment

Abstract

Keywords

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