Influence of Large-Scale Perturbations in Circumstellar Disks on the Linear Polarization Parameters of UX Ori Stars

We present SCUBA imaging observations of the nearby prototype starburst galaxy M82, in order to study large-scale outflows observed in such galaxies and associated with starburst phenomena. We use (1) deep 450 μm continuum maps to investigate the structure and details of the large-scale outflows and (2) 850 μm linear-polarization maps to investigate the relation between nuclei and halo magnetic fields.

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Circumstellar disks of the most vigorously accreting young stars

Science Advances ◽

10.1126/sciadv.1500875 ◽

2016 ◽

Vol 2 (2) ◽

pp. e1500875 ◽

Cited By ~ 43

Author(s):

Hauyu Baobab Liu ◽

Michihiro Takami ◽

Tomoyuki Kudo ◽

Jun Hashimoto ◽

Ruobing Dong ◽

...

Keyword(s):

Large Scale ◽

Near Infrared ◽

Infrared Imaging ◽

Circumstellar Disks ◽

Young Stars ◽

Young Stellar Objects ◽

Stellar Objects ◽

Disk Formation ◽

Gravitational Instabilities ◽

Disk Evolution

Stars may not accumulate their mass steadily, as was previously thought, but in a series of violent events manifesting themselves as sharp stellar brightening. These events can be caused by fragmentation due to gravitational instabilities in massive gaseous disks surrounding young stars, followed by migration of dense gaseous clumps onto the star. Our high-resolution near-infrared imaging has verified the presence of the key associated features, large-scale arms and arcs surrounding four young stellar objects undergoing luminous outbursts. Our hydrodynamics simulations and radiative transfer models show that these observed structures can indeed be explained by strong gravitational instabilities occurring at the beginning of the disk formation phase. The effect of those tempestuous episodes of disk evolution on star and planet formation remains to be understood.

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A Linear Polarization Survey of the Southern Sky at 408 MC/S

Australian Journal of Physics ◽

10.1071/ph650635 ◽

1965 ◽

Vol 18 (6) ◽

pp. 635 ◽

Cited By ~ 35

Author(s):

DS Mathewson ◽

DK Milne

Keyword(s):

Magnetic Field ◽

Linear Polarization ◽

Large Scale ◽

Close Correlation ◽

Great Circle ◽

Relativistic Electrons ◽

Sky Survey ◽

Radiation Theory ◽

Almost All ◽

Spiral Arm

The results of 408 Mcts linear polarization observations of the southern sky using the 210 ft steerable reflector at Parkes are presented. Combination of this survey with the northern sky survey of the Leiden group shows that almost all of the. polarization at this frequency lies in a band about 60� wide, which contains the great circle that passes through the galactic poles and intersects the plane at lil = 340� and 160�. This large-scale distribution of linear polarization at 408 Mcts may be explained on the basis of synchrotron radiation theory if the Sun lies almost at the centre of a spiral arm that has a magnetic field directed along it towards III = 70� and 250�. The concentrations of relativistic electrons may be confined to regions of higher than average magnetic field strength (5 X 10-5 G) elongated in the direction of the arm. The observations show that the magnetic fields in these "synchrotron" regions are very ordered. The distance to the polarized regions may be about 150 pc. At high latitudes, close correlation is observed between features of the distribution of background polarization and Faraday rotation of extragalactic sources.

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Design, fabrication, and test of a novel broadband dual-polarized microstrip antenna for WLAN applications

International Journal of Microwave and Wireless Technologies ◽

10.1017/s1759078718001435 ◽

2018 ◽

Vol 11 (3) ◽

pp. 297-301

Author(s):

Majid Karimipour ◽

Iman Aryanian

Keyword(s):

Transmission Lines ◽

Linear Polarization ◽

Microstrip Antenna ◽

Large Scale ◽

Impedance Bandwidth ◽

Feeding System ◽

Parasitic Patch ◽

Measurement Results ◽

Simulation Results ◽

Dual Polarized

AbstractA dual-polarized dual-layer wideband microstrip antenna is presented. Dual orthogonal linear polarization and enhanced isolation between two ports are achieved by employing two radiating patches perpendicular to each other and printed on two separate substrates. Broadband behavior of the antenna is realized by using two wideband double-sided printed strip dipole and angular ring as radiating patches along with wideband baluns as feeding system. The patches are connected to baluns with two separate twin-lead transmission lines. Moreover, to improve the impedance bandwidth of the strip dipole significantly, a diamond-shape parasitic patch is artily incorporated into the top side of the upper layer of the antenna. The proposed antenna can easily be employed in large-scale arrays thanks to the feeding system of the patches. A prototype is fabricated to verify the simulation results where the measurement results show the −10 dB impedance bandwidths of 40% (4.3–6.5 GHz) and 43% (4.2–6.5 GHz) at port #1 and port #2, respectively. Besides, the isolation between two ports and the radiation gain are obtained around 35 dB and 9 dBi, respectively, which are useful for WLAN applications.

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Polarimetric imaging mode of VLT/SPHERE/IRDIS

Astronomy and Astrophysics ◽

10.1051/0004-6361/201834996 ◽

2020 ◽

Vol 633 ◽

pp. A64 ◽

Cited By ~ 15

Author(s):

R. G. van Holstein ◽

J. H. Girard ◽

J. de Boer ◽

F. Snik ◽

J. Milli ◽

...

Keyword(s):

Linear Polarization ◽

Data Reduction ◽

Near Infrared ◽

Circumstellar Disks ◽

Correction Method ◽

Polarization Effects ◽

Very Large Telescope ◽

Instrumental Polarization ◽

Imaging Polarimetry ◽

Data Reduction Method

Context. Circumstellar disks and self-luminous giant exoplanets or companion brown dwarfs can be characterized through direct-imaging polarimetry at near-infrared wavelengths. SPHERE/IRDIS at the Very Large Telescope has the capabilities to perform such measurements, but uncalibrated instrumental polarization effects limit the attainable polarimetric accuracy. Aims. We aim to characterize and correct the instrumental polarization effects of the complete optical system, that is, the telescope and SPHERE/IRDIS. Methods. We created a detailed Mueller matrix model in the broadband filters Y, J, H, and Ks and calibrated the model using measurements with SPHERE’s internal light source and observations of two unpolarized stars. We developed a data-reduction method that uses the model to correct for the instrumental polarization effects, and applied it to observations of the circumstellar disk of T Cha. Results. The instrumental polarization is almost exclusively produced by the telescope and SPHERE’s first mirror and varies with telescope altitude angle. The crosstalk primarily originates from the image derotator (K-mirror). At some orientations, the derotator causes severe loss of signal (> 90% loss in the H- and Ks-band) and strongly offsets the angle of linear polarization. With our correction method we reach, in all filters, a total polarimetric accuracy of ≲0.1% in the degree of linear polarization and an accuracy of a few degrees in angle of linear polarization. Conclusions. The correction method enables us to accurately measure the polarized intensity and angle of linear polarization of circumstellar disks, and is a vital tool for detecting spatially unresolved (inner) disks and measuring the polarization of substellar companions. We have incorporated the correction method in a highly-automated end-to-end data-reduction pipeline called IRDAP, which we made publicly available online.

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Tracing large-scale structures in circumstellar disks with ALMA

Astronomy and Astrophysics ◽

10.1051/0004-6361/201220390 ◽

2013 ◽

Vol 549 ◽

pp. A97 ◽

Cited By ~ 26

Author(s):

J. P. Ruge ◽

S. Wolf ◽

A. L. Uribe ◽

H. H. Klahr

Keyword(s):

Large Scale ◽

Circumstellar Disks ◽

Large Scale Structures ◽

Scale Structures

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4.1. Radio continuum and molecular gas in the Galactic center: large-scale structures

Symposium - International Astronomical Union ◽

10.1017/s0074180900084473 ◽

1998 ◽

Vol 184 ◽

pp. 161-168

Author(s):

Yoshiaki Sofue

Keyword(s):

Radio Emission ◽

Linear Polarization ◽

Large Scale ◽

Galactic Center ◽

Thermal Emission ◽

Radio Continuum ◽

Molecular Gas ◽

Large Scale Structures ◽

Almost Everywhere ◽

Scale Structures

The radio emission from the Galactic Center is a mixture of thermal (free-free) and non-thermal (synchrotron) emissions (Fig. 1a). However, the spectral index in the central 3° region is flat almost everywhere (Sofue 1985), even in regions where strong linear polarization is detected. Therefore, a flat spectrum observed near the galactic center can no longer be taken as an indicator of thermal emission.

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Magnetic field evolution in solar-type stars

Proceedings of the International Astronomical Union ◽

10.1017/s1743921320001404 ◽

2019 ◽

Vol 15 (S354) ◽

pp. 169-180

Author(s):

Axel Brandenburg

Keyword(s):

Magnetic Field ◽

Linear Polarization ◽

Large Scale ◽

Rossby Number ◽

Rotating Stars ◽

Field Evolution ◽

Solar Type ◽

Activity Cycles ◽

Rapidly Rotating Stars ◽

The Magnetic Field

AbstractWe discuss selected aspects regarding the magnetic field evolution of solar-type stars. Most of the stars with activity cycles are in the range where the normalized chromospheric Calcium emission increases linearly with the inverse Rossby number. For Rossby numbers below about a quarter of the solar value, the activity saturates and no cycles have been found. For Rossby numbers above the solar value, again no activity cycles have been found, but now the activity goes up again for a major fraction of the stars. Rapidly rotating stars show nonaxisymmetric large-scale magnetic fields, but there is disagreement between models and observations regarding the actual value of the Rossby number where this happens. We also discuss the prospects of detecting the sign of magnetic helicity using various linear polarization techniques both at the stellar surface using the parity-odd contribution to linear polarization and above the surface using Faraday rotation.

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Linear Polarization and the Dynamics of Circumstellar Disks of Classical Be Stars

Proceedings of the International Astronomical Union ◽

10.1017/s1743921314007157 ◽

2014 ◽

Vol 9 (S307) ◽

pp. 377-378

Author(s):

Robbie J. Halonen ◽

Carol E. Jones

Keyword(s):

Linear Polarization ◽

Polarized Light ◽

Circumstellar Disks ◽

Be Stars ◽

Stellar Radiation ◽

Circumstellar Gas ◽

Linearly Polarized ◽

Spherically Symmetric Distribution ◽

Be Star ◽

Dynamical Nature

AbstractThe intrinsic linearly polarized light arising from electron scattering of stellar radiation in a non-spherically symmetric distribution of gas is a characterizing feature of classical Be stars. The distinct polarimetric signature provides a mean for directly probing the physical and geometric properties of the gaseous material enveloping these rapidly-rotating massive stars. Using a Monte Carlo radiative transfer computation and a self-consistent radiative equilibrium solution for the circumstellar gas, we explore the role of this observable signature in investigating the dynamical nature of classical Be star disks. In particular, we focus on the potential for using linearly polarized light to develop diagnostics of mass-loss events and to trace the evolution of the gas in a circumstellar disk. An informed context for interpreting the observed linear polarization signature can play an important role in identifying the physical process(es) which govern the formation and dissipation of the gaseous disks surrounding classical Be stars.

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The Formation Mechanism and Resulting Properties of Brown Dwarfs

Symposium - International Astronomical Union ◽

10.1017/s0074180900210206 ◽

2003 ◽

Vol 211 ◽

pp. 27-30 ◽

Cited By ~ 1

Author(s):

Matthew R. Bate ◽

Ian A. Bonnell ◽

Volker Bromm

Keyword(s):

Star Formation ◽

Formation Mechanism ◽

Binary Stars ◽

Molecular Cloud ◽

Large Scale ◽

Brown Dwarfs ◽

Circumstellar Disks ◽

Mass Function ◽

Initial Mass Function ◽

Initial Mass

We present results from the most complex hydrodynamical star formation calculation performed to date. It follows the collapse and fragmentation of a large-scale turbulent molecular cloud to form dozens of stars and brown dwarfs. It resolves all fragmentation down to the opacity limit, binary stars with separations as small as 1 AU, and circumstellar disks with radii down to ≈ 10 AU. In this proceedings, we examine the formation mechanism of the brown dwarfs and compare the initial mass function and the properties of the brown dwarfs with observations.

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