Publications

  1. AE Gambrel, AS Rahlin, X Song, et al (2021). The XFaster Power Spectrum and Likelihood Estimator for the Analysis of Cosmic Microwave Background Maps. arXiv preprint arXiv:2104.01172.
  2. PAR Ade, M Amiri, SJ Benton, et al (2021). A Constraint on Primordial B-Modes from the First Flight of the SPIDER Balloon-Borne Telescope. arXiv preprint arXiv:2103.13334
  3. EC Shaw, PAR Ade, S Akers, et al (2020). Design and pre-flight performance of SPIDER 280 GHz receivers. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy X 11453, 114532F.
  4. Márcio O’Dwyer, Craig J Copi, Johanna M Nagy, et al (2020). Hemispherical variance anomaly and reionization optical depth. Monthly Notices of the Royal Astronomical Society 499(3), 3563-3570.
  5. Ajay Gill, Steven J Benton, Anthony M Brown, et al (2020). Optical Night Sky Brightness Measurements from the Stratosphere. The Astronomical Journal 160(6), 266.
  6. Kevork Abazajian, Graeme E Addison, Peter Adshead, et al (2020). CMB-S4: Forecasting Constraints on Primordial Gravitational Waves. arXiv preprint arXiv:2008.12619.
  7. EL Sirks, P Clark, RJ Massey, et al (2020). Download by parachute: retrieval of assets from high altitude balloons. Journal of Instrumentation 15(05), P05014.
  8. B Osherson, JP Filippini, J Fu, et al (2020). Particle Response of Antenna-Coupled TES Arrays: Results from SPIDER and the Laboratory. Journal of Low Temperature Physics, 1-10.
  9. L Javier Romualdez, Steven J Benton, Anthony M Brown, et al (2020). Robust diffraction-limited near-infrared-to-near-ultraviolet wide-field imaging from stratospheric balloon-borne platforms—Super-pressure Balloon-borne Imaging Telescope performance. Review of Scientific Instruments 91(3), 034501.
  10. William Jones, C Barth Netterfield, Richard Massey, et al (2019). The Enabling Capabilities of the Super Pressure Balloon Platform: Diffraction-Limited, Wide-field Imaging from the Stratosphere. Bulletin of the American Astronomical Society 51(7), 171.
  11. Daniel Green, Mustafa A Amin, Joel Meyers, et al (2019). Messengers from the Early Universe: Cosmic Neutrinos and Other Light Relics. arXiv preprint arXiv:1903.04763.
  12. John Carlstrom, Kevork Abazajian, Graeme Addison, et al (2019). CMB-S4. Bulletin of the American Astronomical Society 51.
  13. R Gualtieri, JP Filippini, PAR Ade, et al (2018). SPIDER: CMB Polarimetry from the Edge of Space. Journal of Low Temperature Physics 193(5), 1112-1121.
  14. Sean Bryan, Peter Ade, J Richard Bond, et al (2018). Measuring Reionization, Neutrino Mass, and Cosmic Inflation with BFORE. Journal of Low Temperature Physics 193(5), 1033-1040.
  15. AS Bergman, PAR Ade, S Akers, et al (2018). 280 GHz Focal Plane Unit Design and Characterization for the SPIDER-2 Suborbital Polarimeter. Journal of Low Temperature Physics 193 (5), 1075-1084.
  16. Sean Bryan, Peter Ade, J Richard Bond, et al (2018). BFORE: a CMB balloon payload to measure reionization, neutrino mass, and cosmic inflation. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy IX 10708, 1070805.
  17. JM Nagy, PAR Ade, M Amiri, et al (2017). A New Limit on CMB Circular Polarization from SPIDER. The Astrophysical Journal 844(2), 151.
  18. Maximilian H Abitbol, Zeeshan Ahmed, Darcy Barron, et al (2017). CMB-S4 Technology Book. arXiv preprint arXiv:1706.02464.
  19. Johanna Marie Nagy (2017). Optical Development for the SPIDER Balloon-Borne CMB Polarimeter. Case Western Reserve University.
  20. Johannes Hubmayr, Jason E Austermann, James A Beall, et al (2016). Design of 280 GHz feedhorn-coupled TES arrays for the balloon-borne polarimeter SPIDER. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VIII 9914, 99140V.
  21. Sean Bryan, Peter Ade, Mandana Amiri, et al (2016). A cryogenic rotation stage with a large clear aperture for the half-wave plates in the Spider instrument. Review of Scientific Instruments 87(1), 014501.
  22. JE Gudmundsson, PAR Ade, M Amiri, et al (2015). The thermal design, characterization, and performance of the Spider long-duration balloon cryostat. Cryogenics 72, 65-76.
  23. AS Rahlin, PAR Ade, M Amiri, et al (2014). Pre-flight integration and characterization of the SPIDER balloon-borne telescope. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VII 9153, 915313.
  24. JD Soler, PAR Ade, M Amiri, et al (2014). Design and construction of a carbon fiber gondola for the SPIDER balloon-borne telescope. Ground-based and Airborne Telescopes V 9145, 91450T.
  25. SJ Benton, PA Ade, M Amiri, et al (2014). BLASTbus electronics: general-purpose readout and control for balloon-borne experiments. Ground-based and Airborne Telescopes V 9145, 91450V.
  26. Jamil A Shariff, Peter AR Ade, Mandana Amiri, et al (2014). Pointing control for the SPIDER balloon-borne telescope. Ground-based and Airborne Telescopes V 9145, 91450U.
  27. NN Gandilo, PAR Ade, M Amiri, et al (2014). Attitude determination for balloon-borne experiments. Ground-based and Airborne Telescopes V 9145, 91452U.
  28. JW Henning, P Ade, KA Aird, et al (2012). Feedhorn-coupled TES polarimeter camera modules at 150 GHz for CMB polarization measurements with SPTpol. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VI 8452, 84523A.
  29. JT Sayre, P Ade, KA Aird, et al (2012). Design and characterization of 90 GHz feedhorn-coupled TES polarimeter pixels in the SPTPol camera. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VI 8452, 845239.
  30. K Story, E Leitch, P Ade, et al (2012). South Pole Telescope software systems: control, monitoring, and data acquisition. Software and Cyberinfrastructure for Astronomy II 8451, 84510T.
  31. Elizabeth M George, P Ade, KA Aird, et al (2012). Performance and on-sky optical characterization of the SPTpol instrument. Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy VI 8452, 84521F.