Publications

My publications are listed below in reverse chronological order. You can also see these on arXiv, NASA ADS, Google Scholar, publons and orcid.

As of 2022 I have been an author of 72 publications and the lead author of 9 publications. According to NASA ADS, the publications I’ve contributed to have been cited over 4,800 times, and my h-index is 26.

Submitted

  1. The C-Band All-Sky Survey (C-BASS): Template Fitting of Diffuse Galactic Microwave Emission in the Northern Sky
    Harper et al., MNRAS (accepted), arXiv:2202.10411, NASA ADS, Wikidata
  2. Searching for dark-matter waves with PPTA and QUIJOTE pulsar polarimetry
    Castillo et al., JCAP (accepted), arXiv:2201.03422, NASA ADS, Wikidata
  3. The technical infrastructure of cultural initiatives on Wikimedia: three case studies from Brazil
    Alves et al., ESSACHESS (accepted)
  4. The BINGO Project V: Further steps in Component Separation and Bispectrum Analysis
    Fornazier et al., A&A (accepted), arXiv:2107.01637, NASA ADS, Wikidata
  5. The BINGO Project IV: Simulations for Mission Performance Assessment
    Liccardo et al., A&A (accepted), arXiv:2107.01636, NASA ADS, Wikidata
  6. The BINGO Project III: Optical design and optimisation of the focal plane
    Abdalla et al., A&A (accepted), arXiv:2107.01635, NASA ADS, Wikidata
  7. The BINGO Project II: Instrument Description
    Wuensche et al., A&A (accepted), arXiv:2107.01634, NASA ADS, Wikidata
  8. The BINGO Project I: Baryon Acoustic Oscillations from Integrated Neutral Gas Observations
    Abdalla et al., A&A (accepted), arXiv:2107.01633, NASA ADS, Wikidata

2022

  1. Observations with KIDs Interferometer Spectrum Survey
    Fasano et al., NIKA2 conference proceedings, EPJ Web of Conferences 257, 00017, arXiv:2111.01449, NASA ADS, Wikidata

2021

  1. Accurate sky signal reconstruction for ground-based spectroscopy with kinetic inductance detectors
    Fasano et al. A&A, 656, 116, arXiv:2109.03145, NASA ADS, Wikidata
  2. Revisiting the distance to radio Loops I and IV using Gaia and radio/optical polarization data
    Panopoulou et al., ApJ, 922, 210, arXiv:2106.14267, NASA ADS, Wikidata
  3. SATCON2 Observations Working Group Report
    Rawls et al., https://doi.org/10.5281/zenodo.5608826, Wikidata, Wikisource
  4. A forecast of the sensitivity on the measurement of the optical depth to reionization with the GroundBIRD experiment
    Lee et al., ApJ, 915, 88, arXiv:2102.03210, NASA ADS, Wikidata
  5. Baryon Acoustic Oscillations from Integrated Neutral Gas Observations: an instrument to observe the 21cm hydrogen line in the redshift range 0.13 < z < 0.45–status update
    Wuensche et al., An. Acad. Bras. Ciências 93 (suppl 1), 2021, arXiv:2106.02107, Wikidata
  6. Detection of Spectral Variations of Anomalous Microwave Emission with QUIJOTE and C-BASS
    Cepeda-Arroita et al., MNRAS, 503, 2927, arXiv:2001.07159, NASA ADS, Wikidata

2020

  1. On-site performance of GroundBIRD, a CMB polarization telescope for large angular scale observations
    Honda et al., SPIE Proceedings Volume 11445, Ground-based and Airborne Telescopes VIII; 114457Q, Wikidata
  2. The Tenerife Microwave Spectrometer (TMS) experiment:studying the absolute spectrum of the sky emission in the 10-20 GHz range
    Rubino-Martin et al., SPIE Proceedings Volume 11453, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy X; 114530T, Wikidata
  3. New technologies for the Tenerife Microwave Spectrometer and current status
    Alonso-Arias et al., SPIE Proceedings Volume 11447, Ground-based and Airborne Instrumentation for Astronomy VIII; 114476N (2020), Wikidata
  4. Satellite Constellation Internet Affordability and Need
    Rawls et al., RNAAS, 4, 189 (October 2020), arXiv:2011.05168, NASA ADS, Wikidata
  5. Planck 2018 results. IV. Diffuse component separation
    Planck Collaboration, A&A, 641, A4 (September 2020), arXiv:1807.06208, NASA ADS, Wikidata
  6. Planck 2018 results. II. Low Frequency Instrument data processing
    Planck Collaboration, A&A, 641, A2 (September 2020), arXiv:1807.06206, NASA ADS, Wikidata
  7. Planck 2018 results. I. Overview and the cosmological legacy of Planck
    Planck Collaboration, A&A, 641, A1 (September 2020), arXiv:1807.06205, NASA ADS, Wikidata
  8. GroundBIRD: A CMB Polarization Experiment with MKID Arrays
    Lee et al., Journal of Low Temperature Physics, arXiv:2011.07705, NASA ADS, Wikidata
  9. Development of MKIDs for the CMB polarization experiment “GroundBIRD”
    Ishida et al., IEICE technical report 119 (369), 135-138, Wikidata
  10. Baryon acoustic oscillations from Integrated Neutral Gas Observations: Broadband corrugated horn construction and testing
    Wuensche et al., Experimental Astronomy, 50, 125, arXiv:1911.13188, NASA ADS, Wikidata
  11. The C-Band All-Sky Survey (C-BASS): Total intensity point source detection over the northern sky
    Grumitt et al., MNRAS, 496, 1941, arXiv:1910.08583, NASA ADS, Wikidata

2019

  1. The C-Band All-Sky Survey (C-BASS): Simulated parametric fitting in single pixels in total intensity and polarization
    Jew et al., MNRAS, 490, 2958, arXiv:1907.11642, NASA ADS, Wikidata
  2. Baryon acoustic oscillations from Integrated Neutral Gas Observations: Radio frequency interference measurements and telescope site selection
    Peel et al., Journal of Astronomical Instrumentation, Volume 08, Issue 01 (March 2019), 1940005, DOI 10.1142/S2251171719400051, arXiv:1811.09464, NASA ADS, Wikidata
  3. The C-Band All-Sky Survey (C-BASS): Constraining diffuse Galactic radio emission in the North Celestial Pole region
    Dickinson et al., MNRAS, 485, 2844, arXiv:1810.11681, NASA ADS, Wikidata

2018

  1. The C-Band All-Sky Survey (C-BASS): Design and capabilities
    Jones et al., MNRAS, 480, 3224, arXiv:1805.04490, NASA ADS, Wikidata
  2. Planck Observations of M33
    Tibbs et al., MNRAS, 477, 4968, arXiv:1803.10135, NASA ADS, Wikidata
  3. The State-of-Play of Anomalous Microwave Emission (AME) Research
    Dickinson et al., New Astronomy Reviews vol. 80, p.1-28, arXiv:1802.08073, NASA ADS, Wikidata

2016

  1. Update on the BINGO 21cm intensity mapping experiment
    Battye et al., Proceedings of the 51st Rencontres de Moriond, March 19-26, 2016, arXiv:1610.06826, NASA ADS, Wikidata
  2. Planck 2015 results. XXV. Diffuse low-frequency Galactic foregrounds
    Planck Collaboration, A&A, 594, A25, arXiv:1506.06660, NASA ADS, Wikidata
  3. Planck 2015 results. V. LFI calibration
    Planck Collaboration, A&A, 594, A5, arXiv:1505.08022, NASA ADS, Wikidata
  4. Planck 2015 results. II. Low Frequency Instrument data processing
    Planck Collaboration, A&A, 594, A2 arXiv:1502.01583, NASA ADS, Wikidata
    Collaboration paper. I calculated the colour correction coefficients.
  5. Planck 2015 results. I. Overview of products and scientific results
    Planck Collaboration, A&A, 594, A1, arXiv:1502.01582, NASA ADS, Wikidata
    Collaboration paper
  6. Loops and arcs in the radio sky
    Peel, Vidal, Dickinson and Leahy, Physics World, January 2016, first published in Physics World at physicsworld.com, Wikidata
  7. Planck intermediate results. XXXI. Microwave survey of Galactic supernova remnants
    Planck Collaboration, A&A, 586, A134, arXiv:1409.5746, NASA ADS, Wikidata

2015

  1. C-Band All-Sky Survey: A First Look at the Galaxy
    Irfan et al., MNRAS, 448, 3572, arXiv:1501.06069, NASA ADS, Wikidata
  2. SKA studies of in-situ synchrotron radiation from molecular clouds
    Dickinson et al., Proceedings “Advancing Astrophysics with the SKA”, arXiv:1501.00804, NASA ADS, Wikidata
  3. SKA studies of nearby galaxies: star-formation, accretion processes and molecular gas across all environments
    Beswick et al., Proceedings “Advancing Astrophysics with the SKA”, arXiv:1412.5810, NASA ADS, Wikidata
  4. Studies of Anomalous Microwave Emission with the SKA
    Dickinson et al., Proceedings “Advancing Astrophysics with the SKA”, arXiv:1412.5054, NASA ADS, Wikidata
  5. Planck intermediate results. XXV. The Andromeda Galaxy as seen by Planck
    Planck Collaboration, A&A, 582, A28, arXiv:1407.5452, NASA ADS, Wikidata
    I led this paper, and am the corresponding author.
  6. Planck intermediate results. XXIII. Galactic plane emission components derived from Planck with ancillary data
    Planck Collaboration, A&A, 580, A13, arXiv:1406.5093, NASA ADS, Wikidata
  7. Planck intermediate results. XVIII. The millimetre and sub-millimetre emission from planetary nebulae
    Planck Collaboration, A&A, 573, A6, arXiv:1403.4723, NASA ADS, Wikidata

2014

  1. Planck intermediate results. XV. A study of anomalous microwave emission in Galactic clouds
    Planck Collaboration, A&A, 565, A103, arXiv:1309.1357, NASA ADS, Wikidata
  2. Planck intermediate results. XIV. Dust emission at millimetre wavelengths in the Galactic plane
    Planck Collaboration, A&A, 564, A45, arXiv:1307.6815, NASA ADS, Wikidata
  3. Planck 2013 results. V. LFI calibration
    Planck Collaboration, A&A, 571, A5, arXiv:1303.5066, NASA ADS, Wikidata
  4. Planck 2013 results. III. LFI systematic uncertainties
    Planck Collaboration, A&A, 571, A3, arXiv:1303.5064, NASA ADS, Wikidata
  5. Planck 2013 results. II. The Low Frequency Instrument data processing
    Planck Collaboration, A&A, 571, A2, arXiv:1303.5063, NASA ADS, Wikidata
  6. Planck 2013 results. I. Overview of products and scientific results
    Planck Collaboration, A&A, 571, A1, arXiv:1303.5062, NASA ADS, Wikidata

2013

  1. A 20 GHz Bright Sample for Delta > 72 deg – II. Multi-frequency Follow-up
    Ricci et al., MNRAS, 435, 2793, arXiv:1307.8380, NASA ADS, Wikidata
  2. Planck intermediate results. XII: Diffuse Galactic components in the Gould Belt System
    Planck Collaboration, A&A, 557, A53, arXiv:1301.5839, NASA ADS, Wikidata

2012

  1. Template fitting of WMAP 7-year data: anomalous dust or flattening synchrotron emission?
    Peel et al., MNRAS, 424, 2676, arXiv:1112.0432, NASA ADS, Wikidata
    I led this work, doing the template fits, analysis, and writing the paper.
  2. Sunyaev-Zel’dovich clusters in Millennium Gas simulations
    Kay et al., MNRAS, 442, 1999, arXiv:1112.3769, NASA ADS, Wikidata
    Second author. 99% of this paper is Scott’s work; I helped with the analysis looking at the effects of overlapping clusters on the Y-M relationship.
  3. Blazar Compton Efficiencies
    Gupta et al., J. Phys.: Conf. Ser. 355 012015, NASA ADS, Wikidata

2011

  1. Blazar Compton efficiencies: Fermi, external photons and the Sequence
    Gupta et al., arXiv:1106.5172, NASA ADS, Wikidata
    Third author. I provided general input, occasionally playing the devil’s advocate, and assisting with the paper’s instigation and direction. Not published in a peer reviewed journal.
  2. Planck Early Results: New Light on Anomalous Microwave Emission from Spinning Dust Grains
    Planck Collaboration, A&A, 536, A20, arXiv:1101.2031, NASA ADS, Wikidata
    I played a significant role in the creation of this paper, including leading the new regions section (coming up with the method of identifying the regions, looking through the candidates, and identifying those that made it into the paper), and working on the aperture photometry (the final flux densities for rho ophiuchi and M42 were assembled by me).
  3. Planck Early Results: The Planck View of Nearby Galaxies
    Planck Collaboration, A&A, 536, A16, arXiv:1101.2045, NASA ADS, Wikidata
    I provided some input to this paper; originally, I was going to contribute a section to it, but this was spun off into a later paper.
  4. New constraints on the Polarization of Anomalous Microwave Emission in nearby molecular clouds
    Dickinson et al., MNRAS Letters, 418, L35, arXiv:1108.0308, NASA ADS, Wikidata
    Second author. I worked on the aperture photometry software, the total intensity analysis for Perseus, and provided general input throughout.
  5. Sunyaev Zel’dovich observations of a statistically complete sample of galaxy clusters with OCRA-p
    Lancaster et al., MNRAS, 418, 1441, arXiv:1106.3766, NASA ADS, Wikidata
  6. Physics on Wikipedia
    Poulter and Peel, Physics World, September 2011, p. 32-36, Wikidata
    Popular article (not peer reviewed), about Physics coverage on Wikipedia and ways that it can be improved. Accompanied by a blog post.
  7. Radio to infrared spectra of late-type galaxies with Planck and WMAP data
    Peel et al., MNRAS Letters, 416, 99, arXiv:1105.6336, NASA ADS, Wikidata
    I led this work, assembling the data, fitting the spectra and writing the paper.
  8. Statistical properties of polarized radio sources at high frequency and their impact on CMB polarization measurements
    Battye et al., MNRAS, 413, 132, arXiv:1003.5846, NASA ADS, Wikidata
    Third author. I worked on the simulations (sections 5 & 6), and provided some input on the rest of the paper. I also produced the final versions of the plots used throughout the paper.
  9. OCRA-p observations of the CRATES sources at 30 GHz
    Peel et al., MNRAS, 410, 2690, arXiv:1007.5242, NASA ADS, Wikidata
    Erratum: MNRAS, 415, 2974, August 2011, appended to the arXiv paper, Wikidata.

2010

  1. OCRA monitoring of V407 Cyg at 30GHz
    Peel et al., The Astronomer’s Telegram, #2905, NASA ADS, Wikidata
  2. Radio detection of V407 Cyg at 30GHz with OCRA-p on the Torun telescope
    Gawronski, Peel, et al., The Astronomer’s Telegram, #2511, NASA ADS, Wikidata
  3. 30 GHz observations of sources in the VSA fields
    Gawronski, Peel, et al., MNRAS, 406, 1853, arXiv:0909.1189, NASA ADS, Wikidata
  4. Simulations and Observations of the Microwave Universe
    Peel, PhD Thesis, University of Manchester, arXiv:1006.2760, NASA ADS, University of Manchester eScholar, Wikidata

2009

  1. Statistics of the Sunyaev-Zel’dovich Effect power spectrum
    Peel et al., MNRAS, 397, 2189, arXiv:0903.5473, NASA ADS, Wikidata
  2. Survey of Planetary Nebulae at 30 GHz with OCRA-p
    Pazderska et al., Astronomy & Astrophysics, 498, 463, arXiv:0902.3945, NASA ADS, Wikidata
    Collaboration paper