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Main Authors: Kogut, Alan, Switzer, Eric, Fixsen, Dale, Aghanim, Nabila, Chluba, Jens, Chuss, Dave, Delabrouille, Jacques, Dvorkin, Cora, Hensley, Brandon, Hill, Colin, Maffei, Bruno, Pullen, Anthony, Rotti, Aditya, Sabyr, Alina, Thiele, Leander, Wollack, Ed, Zelko, Ioana
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.20403
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author Kogut, Alan
Switzer, Eric
Fixsen, Dale
Aghanim, Nabila
Chluba, Jens
Chuss, Dave
Delabrouille, Jacques
Dvorkin, Cora
Hensley, Brandon
Hill, Colin
Maffei, Bruno
Pullen, Anthony
Rotti, Aditya
Sabyr, Alina
Thiele, Leander
Wollack, Ed
Zelko, Ioana
author_facet Kogut, Alan
Switzer, Eric
Fixsen, Dale
Aghanim, Nabila
Chluba, Jens
Chuss, Dave
Delabrouille, Jacques
Dvorkin, Cora
Hensley, Brandon
Hill, Colin
Maffei, Bruno
Pullen, Anthony
Rotti, Aditya
Sabyr, Alina
Thiele, Leander
Wollack, Ed
Zelko, Ioana
contents The Primordial Inflation Explorer (PIXIE) is an Explorer-class mission concept to measure the energy spectrum and linear polarization of the cosmic microwave background (CMB). A single cryogenic Fourier transform spectrometer compares the sky to an external blackbody calibration target, measuring the Stokes I, Q, U parameters to levels ~200 Jy/sr in each 2.65 degree diameter beam over the full sky, in each of 300 frequency channels from 28 GHz to 6 THz. With sensitivity over 1000 times greater than COBE/FIRAS, PIXIE opens a broad discovery space for the origin, contents, and evolution of the universe. Measurements of small distortions from a CMB blackbody spectrum provide a robust determination of the mean electron pressure and temperature in the universe while constraining processes including dissipation of primordial density perturbations, black holes, and the decay or annihilation of dark matter. Full-sky maps of linear polarization measure the optical depth to reionization at nearly the cosmic variance limit and constrain models of primordial inflation. Spectra with sub-percent absolute calibration spanning microwave to far-IR wavelengths provide a legacy data set for analyses including line intensity mapping of extragalactic emission and the cosmic infrared background amplitude and anisotropy. We describe the PIXIE instrument sensitivity, foreground subtraction, and anticipated science return from both the baseline 2-year mission and a potential extended mission.
format Preprint
id arxiv_https___arxiv_org_abs_2405_20403
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The Primordial Inflation Explorer (PIXIE): Mission Design and Science Goals
Kogut, Alan
Switzer, Eric
Fixsen, Dale
Aghanim, Nabila
Chluba, Jens
Chuss, Dave
Delabrouille, Jacques
Dvorkin, Cora
Hensley, Brandon
Hill, Colin
Maffei, Bruno
Pullen, Anthony
Rotti, Aditya
Sabyr, Alina
Thiele, Leander
Wollack, Ed
Zelko, Ioana
Cosmology and Nongalactic Astrophysics
Astrophysics of Galaxies
The Primordial Inflation Explorer (PIXIE) is an Explorer-class mission concept to measure the energy spectrum and linear polarization of the cosmic microwave background (CMB). A single cryogenic Fourier transform spectrometer compares the sky to an external blackbody calibration target, measuring the Stokes I, Q, U parameters to levels ~200 Jy/sr in each 2.65 degree diameter beam over the full sky, in each of 300 frequency channels from 28 GHz to 6 THz. With sensitivity over 1000 times greater than COBE/FIRAS, PIXIE opens a broad discovery space for the origin, contents, and evolution of the universe. Measurements of small distortions from a CMB blackbody spectrum provide a robust determination of the mean electron pressure and temperature in the universe while constraining processes including dissipation of primordial density perturbations, black holes, and the decay or annihilation of dark matter. Full-sky maps of linear polarization measure the optical depth to reionization at nearly the cosmic variance limit and constrain models of primordial inflation. Spectra with sub-percent absolute calibration spanning microwave to far-IR wavelengths provide a legacy data set for analyses including line intensity mapping of extragalactic emission and the cosmic infrared background amplitude and anisotropy. We describe the PIXIE instrument sensitivity, foreground subtraction, and anticipated science return from both the baseline 2-year mission and a potential extended mission.
title The Primordial Inflation Explorer (PIXIE): Mission Design and Science Goals
topic Cosmology and Nongalactic Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2405.20403