Publications

My current publication list can be found on this NASA/ADS library.

First-author (10 published / accepted; 1 under review)

  1. Feature Intensity Mapping: Polycyclic Aromatic Hydrocarbon Emission from All Galaxies Across Cosmic Time
    Y.-T. Cheng, B. S. Hensley, T. S.-Y. Lai, 2025, ApJ submitted, ADS, [arXiv:2506.13863]
  2. Mapping Galactic Dust Emission and Extinction with HI, HII, and H2
    Y.-T. Cheng, B. S. Hensley, T.-C. Chang, & O. Doré, 2025, ApJ, 985, 15, ADS, [arXiv:2411.12801]
  3. Bayesian Multi-line Intensity Mapping
    Y.-T. Cheng, K. Wang, B. D. Wandelt, T.-C. Chang, & O. Doré, 2024, ApJ, 971, 159, ADS, [arXiv:2403.19740]
  4. Is the Radio Source Dipole from NVSS Consistent with the CMB and ΛCDM?
    Y.-T. Cheng, T.-C. Chang, & A. Lidz, 2024, ApJ, 965, 32, ADS, [arXiv:2309.02490]
  5. Data-driven Cosmology from Three-dimensional Light Cones
    Y.-T. Cheng, B. D. Wandelt, T.-C. Chang, & O. Doré, 2023, ApJ, 944, 151, ADS, [arXiv:2210.10052]
  6. Near-infrared Extragalactic Background Light Fluctuations on Nonlinear Scales
    Y.-T. Cheng & J. J. Bock, 2022, ApJ, 940, 115, ADS, [arXiv:2207.13712]
  7. Cosmic Near-Infrared Background Tomography with SPHEREx Using Galaxy Cross-Correlations
    Y.-T. Cheng & T.-C. Chang, 2022, ApJ, 925, 136, ADS, [arXiv:2109.10914]
  8. Probing Intra-Halo Light with Galaxy Stacking in CIBER Images
    Y.-T. Cheng et al. (CIBER Collaboration), 2021, ApJ, 919, 69, ADS, [arXiv:2103.03882]
  9. Phase-Space Spectral Line De-confusion in Intensity Mapping
    Y.-T. Cheng, T.-C. Chang, & J. J. Bock, 2020, ApJ, 901, 142, ADS, [arXiv:2005.05341]
  10. Optimally Mapping Large-Scale Structures with Luminous Sources
    Y.-T. Cheng, R. de Putter, T.-C. Chang, & O. Doré, 2019, ApJ, 877, 86, ADS, [arXiv:1809.06384]
  11. Spectral Line De-Confusion in an Intensity Mapping Survey
    Y.-T. Cheng, T.-C. Chang, J. J. Bock, C. M. Bradford, & A. R. Cooray, 2016, ApJ, 832, 165, ADS, [arXiv:1604.07833]

Contributing author

  1. The SPHEREx Sky Simulator: Science Data Modeling for the First All-Sky Near-Infrared Spectral Survey
    B. P. Crill, et al., 2025, ApJ submitted, ADS, [arXiv:2505.24856]
  2. The Potential of the SPHEREx Mission for Characterizing PAH 3.3 μm Emission in Nearby Galaxies
    E. Zhang, A. L. Faisst, et al., 2025, ApJ submitted, ADS, [arXiv:2503.21876]
  3. CIBER 4th flight fluctuation analysis: Measurements of near-IR auto- and cross-power spectra on arcminute to sub-degree scales
    R. M. Feder, et al., 2025, ApJ submitted, ADS, [arXiv:2501.17933]
  4. CIBER 4th flight fluctuation analysis: Pseudo-power spectrum formalism, improved source masking and validation on mocks
    R. M. Feder, et al., 2025, ApJ submitted, ADS, [arXiv:2501.17932]
  5. Inferred Measurements of the Zodiacal Light Absolute Intensity through Fraunhofer Absorption Line Spectroscopy with CIBER
    P. M. Korngut, et al., 2022, ApJ, 926, 133, ADS, [arXiv:2104.07104]
  6. Probing Cosmic Reionization and Molecular Gas Growth with TIME
    G. Sun, T.-C. Chang, et al., 2021, ApJ, 915, 33, ADS, [arXiv:2012.09160]
  7. Superresolution Reconstruction of Severely Undersampled Point-spread Functions Using Point-source Stacking and Deconvolution
    T. Symons, M. Zemcov, et al., 2021, ApJS, 252, 24, ADS, [arXiv:2102.01094]
  8. Hafnium Films and Magnetic Shielding for TIME, A mm-Wavelength Spectrometer Array
    J. Hunacek, et al., 2018, JLTP, 193, 893, ADS
  9. A Foreground Masking Strategy for [C II] Intensity Mapping Experiments Using Galaxies Selected by Stellar Mass and Redshift
    G. Sun, L. Moncelsi, M. P. Viero, et al., 2018, ApJ, 856, 107, ADS, [arXiv:1601.10095]
  10. Design and fabrication of TES detector modules for the TIME-Pilot [C II] Intensity Mapping Experiment
    J. Hunacek, et al., 2016, JLTP, 184, 733, ADS

White paper / review paper contributions

  1. PRIMA General Observer Science Book
    A. Moullet, et al., 2023, ADS, [arXiv:2310.20572]
  2. Tomography of the Cosmic Dawn and Reionization Eras with Multiple Tracers
    T.-C. Chang, et al., 2019, Astro2020 White Paper, ADS, [arXiv:1903.11744]
  3. Line-Intensity Mapping: 2017 Status Report
    E. D. Kovetz, M. P. Viero, et al., 2017, ADS, [arXiv:1709.09066]

Conference proceedings

  1. A status update on TIME: a mm-wavelength spectrometer designed to probe the Epoch of Reionization
    A. Crites, et al., 2020, SPIE, 114530G
  2. Detector modules and spectrometers for the TIME-Pilot [CII] intensity mapping experiment
    J. Hunacek, et al., 2016, SPIE, 99140L