The Imaging X-ray Polarimetry Explorer (IXPE)

The Imaging X-ray Polarimetry Explorer (IXPE) expands observation space by simultaneously adding polarization measurements to the array of source properties currently measured (energy, time, and location). IXPE will thus open new dimensions for understanding how X-ray emission is produced in astrophysical objects, especially systems under extreme physical conditions—such as neutron stars and black holes. Polarization singularly probes physical anisotropies—ordered magnetic fields, aspheric matter distributions, or general relativistic coupling to black-hole spin—that are not otherwise measurable. Hence, IXPE complements all other investigations in high-energy astrophysics by adding important and relatively unexplored information to the parameter space for studying cosmic X-ray sources and processes, as well as for using extreme astrophysical environments as laboratories for fundamental physics.

[1]  S. L. O'Dell,et al.  The calibration of flight mirror modules for the ART-XC instrument on board the SRG mission , 2014, Astronomical Telescopes and Instrumentation.

[2]  Brian D. Ramsey,et al.  The development of focusing optics for the hard-X-ray region , 2006 .

[3]  Martin C. Weisskopf,et al.  An upper limit to the linear X-ray polarization of Scorpius X-1. , 1978 .

[4]  Martin C. Weisskopf,et al.  Detection of X-Ray Polarization of the Crab Nebula , 1972 .

[5]  Martin C. Weisskopf,et al.  The first search for X-ray polarization in the Centaurus X-3 and Hercules X-1 pulsars , 1979 .

[6]  Philippe Laurent,et al.  Optical Polarimetry of the Inner Crab Nebula and Pulsar , 2013, 1305.6824.

[7]  Ronaldo Bellazzini,et al.  Measurement of the position resolution of the Gas Pixel Detector , 2012, 1208.6330.

[8]  D. J. Clark,et al.  SEPARATION OF TWO CONTRIBUTIONS TO THE HIGH ENERGY EMISSION OF CYGNUS X-1: POLARIZATION MEASUREMENTS WITH INTEGRAL SPI , 2012, 1210.4783.

[9]  R. S. Wolff,et al.  Measurement of the X-ray polarization of the Crab Nebula , 1976 .

[10]  Martin C. Weisskopf,et al.  Development of hard x-ray optics at MSFC , 2003, SPIE Astronomical Telescopes + Instrumentation.

[11]  H. Wolter Spiegelsysteme streifenden Einfalls als abbildende Optiken für Röntgenstrahlen , 1952 .

[12]  J. Keohane,et al.  The Polarization and Depolarization of Radio Emission from Supernova Remnant Cassiopeia A , 1995 .

[13]  INTEGRAL: Science Highlights and Future Prospects , 2011, 1110.6279.

[14]  S. Covino,et al.  The polarized gamma-ray burst GRB 061122 , 2013, 1303.4186.

[15]  I. Grenier,et al.  Polarization of the Crab Pulsar and Nebula as Observed by the INTEGRAL/IBIS Telescope , 2008, 0809.1292.

[16]  K. Long,et al.  A precision measurement of the X-ray polarization of the Crab Nebula without pulsar contamination. , 1978 .

[17]  E. Costa,et al.  An efficient photoelectric X-ray polarimeter for the study of black holes and neutron stars , 2001, Nature.

[18]  P. Ubertini,et al.  The INTEGRAL view of Gamma-Ray Bursts , 2009, 0910.4346.

[19]  G. Dubner,et al.  Radio emission from supernova remnants , 2015, The Astronomy and Astrophysics Review.

[20]  S. Antier,et al.  GRB 140206A: the most distant polarized gamma-ray burst , 2014, 1408.4121.

[21]  J. Roques,et al.  POLARIMETRY IN THE HARD X-RAY DOMAIN WITH INTEGRAL SPI , 2013, 1305.0802.

[22]  Luca Baldini,et al.  Novel gaseous x-ray polarimeter: data analysis and simulation , 2003, SPIE Astronomical Telescopes + Instrumentation.

[23]  R. Bellazzini,et al.  Direct reading of charge multipliers with a self-triggering CMOS analog chip with 105 k pixels at 50 μm pitch , 2006, physics/0604114.

[24]  Lindsay Glesener,et al.  FIRST IMAGES FROM THE FOCUSING OPTICS X-RAY SOLAR IMAGER , 2014 .