Study of Large-Scale Galactic Magnetic Fields at Low Frequencies. Jana Köhler - MPIfR -

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Transcription:

Study of Large-Scale Galactic Magnetic Fields at Low Frequencies Jana Köhler - MPIfR -

How to measure Magnetic Fields???

How to measure Galactic Magnetic Field? Linear Polarization of Starlight product by mostly coherent alignment of spinning dust grains Zeeman Splitting 21 cm line get splitted into three levels by the influence of an external magnetic field Polarized synchrotron emission product of acceleration of relativistic electrons in a magnetic field WMAP (23 94 GHz)

How to Measure the Galactic Magnetic Field? Faraday Rotation χ = χ0 + RM x λ2 with RM = 0.81 ne B dl RM from extragalactic sources Pulsar RMs electron density can be measured by DM = ne dl < B l l > = 1.232 RM / DM Diffuse Synchrotron Emission Rotation Measure Synthesis

What is known up to now???

All-Sky Surveys at Low Frequencies 45 MHz MU Radar & Maipu Array 408 MHz Jodrell Bank & Effelsberg & Parkes 150 MHz 1420 MHz Parkes Stockert & Villa Elisa

All-Sky Surveys at Low Frequencies 45 MHz MU Radar & Maipu Array 408 MHz Jodrell Bank & Effelsberg & Parkes 150 MHz 1420 MHz Parkes Stockert & Villa Elisa

Polarized Intensity 22 GHz more depolarisation at lower frequencies 1.4 GHz at low frequencies strongest polarisation at Fan region and Northern Spur at lower frequencies patchy structure in the Galactic plane

RM Map larger RM values near the Galactic disc antisymmetric structure Oppermann et al., 2012 RM > 0: magn. field pointing towards the observer RM < 0: magn. field pointing away from observer

Magnetic Fields WMAP Zweibel & Heiles, 1997

Magnetic Field Strength Magnetic Field in the vicinity of the Sun is about 5 μg total field is stronger in the arm regions (mainly random fields) regular fields are stronger in interarm regions; mostly in a range of 1~2 μg field strength probably increases towards the Galactic center Han, 2001

Magnetic Field Studies at Low Frequencies low frequencies for measuring low RM necessary for studying weak magnetic fields ideal to study fields in the galactic outer disc and halo and in the intergalactic medium RM in Galactic Disk: ~ few 100 rad/m2 RM in Galactic Halo: ~ few 10 rad/m2

What I want to do...

What I want to do Map of the large scale total and polarized intensity of the entire Northern Sky at low frequencies using RM Synthesis for measuring the polarized emission having a closer look at the polarization properties of the Milky Way especially polarization properties of the cosmic rays in the disk and halo studying the structure of the ISM of the Milky Way and turbulences properties of special targets like CasA, CygA, TauA

and how to get there using LOFAR for studies for low frequencies (< 250 MHz) large scale structures only visible in Single Station mode using RM synthesis for measuring the polarized emission good frequency resolution needed for not running into bandwidth depolarisation therefor using raw uncorrelated TBB data at these low frequencies good calibration of the ionosphere is needed Dipole Beam correction is needed simultaneous pulsare observations for polarization calibration ( for a lot of the Single Stations locale RFI is a big problem for the calibration)

Using TBB Data ( Transient Buffer Boards ) PRO CON good frequency resolution all sky within one measurement simultaneous pulsar observations possible small integration time for one measurement (1.3 sec) big datasets (100GB raw data) long writing time (10 ~15 min) Self written correlator, where frequency resolution can be chosen freely

Calibration Correlation of TBB dataset Phase calibration with CasA and CygA for subbands with strong RFI also use the RFI as Calibrator source Self Amplitude-Phase Calibration search for sources in the field (also RFI) and use them for the calibration use gains for calculating delays maybe creating own CalTables

Measuring the Entire Northern Sky 2 x 24 h observations (with different stations) gap of half a year in between combine to measure to hole (northern) sky better sensitivity RFI and Sun will get averaged out also useful/helpful to study: behaviour of the ionosphere beam model

Combination of Skymaps 49 MHz total intensity 1.3 sec integration time 200 khz bandwidth 11. August 2011; 19:00 22. August 2011, 20:00 3. April 2012; 12:00

Galactic Coordinates 49 MHz

Galactic Coordinates 36 MHz

Galactic Coordinates 62 MHz

Thank you

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