All Publications

Andrew L. Miller (2025). Prospects for detecting asteroid-mass primordial black holes in extreme-mass-ratio inspirals with continuous gravitational waves. Phys. Rev. D 112(10) 103027.

Dana Jones, Nils Siemonsen, Ling Sun, William E. East, Andrew L. Miller, Karl Wette, Ornella J. Piccinni (2025). Methodology for constraining ultralight vector bosons with gravitational wave searches targeting merger remnant black holes. Phys. Rev. D 111(6) 063028.

Ish Gupta, Others (2024). Characterizing Gravitational Wave Detector Networks: From A$^\sharp$ to Cosmic Explorer. Class. Quant. Grav. 41(24) 245001.

Andrew L. Miller, Nancy Aggarwal, Others (2024). Method to search for inspiraling planetary-mass ultra-compact binaries using the generalized frequency-Hough transform in LIGO O3a data. Phys. Rev. D 110(8) 082004.

Andrew L. Miller, Nancy Aggarwal, Others (2024). Gravitational Wave Constraints on Planetary-Mass Primordial Black Holes Using LIGO O3a Data. Phys. Rev. Lett. 133(11) 111401.

Sulagna Bhattacharya, Andrew L. Miller, Anupam Ray (2024). Continuous gravitational waves: A new window to look for heavy nonannihilating dark matter. Phys. Rev. D 110(4) 043006.

Andrew L. Miller, Nancy Aggarwal Et Al. (2024). Gravitational Wave Constraints on Planetary-Mass Primordial Black Holes Using LIGO O3a Data. Phys. Rev. Lett. 133(11) (2024) 111401.

Quynh Lan Nguyen, Andrew L. Miller (2024). Dark Matter and its Effect on Gravitational Wave Signals. PoS EPS-HEP2023 132.

Andrew L. Miller, Neha Singh, Cristiano Palomba (2024). Enabling multimessenger astronomy with continuous gravitational waves: Early warning and sky localization of binary neutron stars in the Einstein Telescope. Phys. Rev. D 109(4) (2024) 043021.

Andrew L. Miller, Neha Singh, Cristiano Palomba (2024). Enabling multimessenger astronomy with continuous gravitational waves: Early warning and sky localization of binary neutron stars in the Einstein Telescope. Phys. Rev. D 109(4) 043021.