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Maya Fishbach

Identifiers

  • name variant Maya Fishbach 0.60 · backfill

Papers (55)

  1. Regression on Regression: Mapping Data-Driven Binary Black Hole Merger Rate Fits to Progenitor Histories astro-ph.HE · 2026 · author #3
  2. Forbidden Formation Histories: The Binary Black Hole Merger Rate Disfavors Long Delay Times astro-ph.HE · 2026 · author #2
  3. Implications of low neutron star merger rates for gamma-ray bursts, r-process production and Galactic double neutron stars astro-ph.HE · 2026 · author #1
  4. The steep redshift evolution of the hierarchical binary black hole merger rate may cause the $z$-$\chi_{\rm eff}$ correlation astro-ph.HE · 2026 · author #3
  5. Evidence of the pair instability gap from black hole masses astro-ph.HE · 2025 · author #2
  6. Mass Distribution of Binary Black Hole Mergers from Young and Old Dense Star Clusters astro-ph.HE · 2025 · author #2
  7. Gravitational-wave kicks impact spins of black holes from hierarchical mergers astro-ph.HE · 2025 · author #3
  8. Spinning spectral sirens: Robust cosmological measurement using mass-spin correlations in the binary black hole population astro-ph.CO · 2025 · author #2
  9. Probing cosmic chemical enrichment with next-generation gravitational-wave observatories astro-ph.HE · 2024 · author #1
  10. Predicting the rate of fast radio bursts in globular clusters from binary black hole observations astro-ph.HE · 2024 · author #3
  11. Are long gamma-ray bursts progenitors to merging binary black holes? astro-ph.HE · 2024 · author #2
  12. Gravitational-wave dark siren cosmology systematics from galaxy weighting astro-ph.CO · 2024 · author #3
  13. Transdimensional inference for gravitational-wave astronomy with Bilby gr-qc · 2024 · author #9
  14. The Mass Density of Merging Binary Black Holes Over Cosmic Time astro-ph.HE · 2024 · author #2
  15. The Redshift Evolution of the Binary Black Hole Mass Distribution from Dense Star Clusters astro-ph.HE · 2024 · author #2
  16. Inferring host-galaxy properties of LIGO-Virgo-KAGRA's black holes astro-ph.HE · 2023 · author #2
  17. DAGnabbit! Ensuring Consistency between Noise and Detection in Hierarchical Bayesian Inference gr-qc · 2023 · author #2
  18. Two of a Kind: Comparing big and small black holes in binaries with gravitational waves astro-ph.HE · 2023 · author #2
  19. LIGO-Virgo-KAGRA's Oldest Black Holes: Probing star formation at cosmic noon with GWTC-3 astro-ph.GA · 2023 · author #1
  20. The role of natal kicks in forming asymmetric compact binary mergers astro-ph.HE · 2023 · author #2
  21. Globular cluster formation histories, masses and radii inferred from gravitational waves astro-ph.GA · 2023 · author #1
  22. Things that might go bump in the night: Assessing structure in the binary black hole mass spectrum astro-ph.HE · 2023 · author #4
  23. The Hitchhiker's guide to the galaxy catalog approach for gravitational wave cosmology gr-qc · 2022 · author #16
  24. Do high-spin high-mass X-ray binaries contribute to the population of merging binary black holes? astro-ph.HE · 2022 · author #2
  25. An Isotropy Measurement with Gravitational Wave Observations astro-ph.HE · 2022 · author #3
  26. Limits on hierarchical black hole mergers from the most negative $\chi_\mathrm{eff}$ systems astro-ph.HE · 2022 · author #1
  27. The $\chi_\mathrm{eff}-z$ correlation of field binary black hole mergers and how 3G gravitational-wave detectors can constrain it astro-ph.HE · 2022 · author #2
  28. Inferring the neutron star maximum mass and lower mass gap in neutron star-black hole systems with spin astro-ph.HE · 2022 · author #2
  29. Unveiling the Universe with Emerging Cosmological Probes astro-ph.CO · 2022 · author #10
  30. Bridging the Gap: Categorizing Gravitational-Wave Events at the Transition Between Neutron Stars and Black Holes astro-ph.HE · 2021 · author #2
  31. Apples and Oranges: Comparing black holes in X-ray binaries and gravitational-wave sources astro-ph.HE · 2021 · author #1
  32. SOAR/Goodman Spectroscopic Assessment of Candidate Counterparts of the LIGO-Virgo Event GW190814 astro-ph.HE · 2021 · author #49
  33. Probing Extremal Gravitational-Wave Events with Coarse-Grained Likelihoods astro-ph.HE · 2021 · author #5
  34. The time delay distribution and formation metallicity of LIGO-Virgo's binary black holes astro-ph.HE · 2021 · author #1
  35. Hierarchical mergers of stellar-mass black holes and their gravitational-wave signatures astro-ph.HE · 2021 · author #2
  36. Do LIGO/Virgo black hole mergers produce AGN flares? The case of GW190521 and prospects for reaching a confident association astro-ph.HE · 2021 · author #2
  37. Cosmology with Standard Sirens at Cosmic Noon astro-ph.CO · 2021 · author #2
  38. When are LIGO/Virgo's Big Black-Hole Mergers? astro-ph.HE · 2021 · author #1
  39. Minding the gap: GW190521 as a straddling binary astro-ph.HE · 2020 · author #1
  40. Does Matter Matter? Using the mass distribution to distinguish neutron stars and black holes astro-ph.HE · 2020 · author #1
  41. Constraints from gravitational wave detections of binary black hole mergers on the $^{12}\rm{C}\left(\alpha,\gamma\right)^{16}\!\rm{O}$ rate astro-ph.HE · 2020 · author #4
  42. Shouts and Murmurs: Combining Individual Gravitational-Wave Sources with the Stochastic Background to Measure the History of Binary Black Hole Mergers astro-ph.HE · 2020 · author #2
  43. The binary-host connection: astrophysics of gravitational wave binaries from their host galaxy properties astro-ph.GA · 2020 · author #2
  44. Counting on Short Gamma-Ray Bursts: Gravitational-Wave Constraints of Jet Geometry astro-ph.HE · 2019 · author #4
  45. Enabling real-time multi-messenger astrophysics discoveries with deep learning gr-qc · 2019 · author #14
  46. The Most Massive Binary Black Hole Detections and the Identification of Population Outliers astro-ph.HE · 2019 · author #1
  47. A Future Percent-Level Measurement of the Hubble Expansion at Redshift 0.8 With Advanced LIGO astro-ph.CO · 2019 · author #2
  48. Cosmological Inference using Gravitational Wave Standard Sirens: A Mock Data Challenge gr-qc · 2019 · author #8
  49. Picky Partners: The Pairing of Component Masses in Binary Black Hole Mergers astro-ph.HE · 2019 · author #1
  50. Standard sirens with a running Planck mass astro-ph.CO · 2019 · author #2
  51. Does the Black Hole Merger Rate Evolve with Redshift? astro-ph.HE · 2018 · author #1
  52. Limits on the number of spacetime dimensions from GW170817 gr-qc · 2018 · author #2
  53. A 2 per cent Hubble constant measurement from standard sirens within 5 years astro-ph.CO · 2017 · author #2
  54. Where are LIGO's Big Black Holes? astro-ph.HE · 2017 · author #1
  55. Are LIGO's Black Holes Made From Smaller Black Holes? astro-ph.HE · 2017 · author #1

Mentions

  • 2503.21278 #3 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2411.08658 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2502.10780 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2312.03316 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2405.14818 #3 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2409.20564 #3 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2404.04460 #9 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2408.04064 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2301.00834 #4 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2308.05102 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2402.12444 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2403.17156 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2307.15824 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2310.02017 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2303.06081 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2212.08694 #16 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2303.02263 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2207.05792 #3 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2201.07241 #10 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2207.14290 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2202.05164 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2204.02619 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2207.02924 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2111.03498 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2109.13351 #49 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2111.02935 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2109.00418 #5 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2105.03439 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2103.14038 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2103.16069 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2105.06491 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2101.07699 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2001.01025 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2009.05472 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2006.06678 #4 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2006.13178 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2003.12152 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1908.06050 #8 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1912.04906 #4 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1911.05882 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1905.12669 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1911.11779 #14 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1908.09084 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1901.03321 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1712.06531 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1805.10270 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1801.08160 #2 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1709.08584 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 1703.06869 #1 · arxiv_oai · confidence 0.70 Maya Fishbach
  • 2606.02431 #3 · arxiv_oai · confidence 0.70 Maya Fishbach

Frequent Coauthors