PUBLICATION LIST
Click here for a list of my publications on ADS
Gravitational Wave Sources
17. Spin Doctors: How to diagnose a hierarchical merger origin
Payne, E., Kremer, K., Zevin, M. 2024, ApJ, 966, L16
16. The imprint of superradiance on hierarchical black hole mergers
Payne, E. Sun, L., Kremer, K., Lasky, P.D., Thrane, E. 2022, ApJ, 931, 79
15. The observed rate of binary black hole mergers can be entirely explained by globular clusters
Rodriguez, C.L., Kremer, K., et al. 2021, RNAAS, 5, 19
14. Implications of eccentric observations on binary black hole formation channels
Zevin, M., Romero-Shaw, I., Kremer, K., Thrane, E., Lasky, P.D. 2021, ApJ, 921, L43
13. The Supersonic Project: SIGOs, a proposed progenitor to globular clusters, and their connections to gravitational wave anisotropies
Lake, W., Naoz, S., Chiou, Y.S., Burkhart, B., Marinacci, F., Vogelsberger, M., Kremer, K., 2021, ApJ, 922, 86
12. Gravitational waves as a probe of globular cluster formation and evolution
Romero-Shaw, I., Kremer, K., Lasky, P., Thrane, E., Samsing, J. 2021, MNRAS, 506, 2362
11. Joint constraints on the field-cluster mixing fraction, common envelope efficiency, and globular cluster radii from a population of binary hole mergers via deep learning
Wong, K., Breivik, K., Kremer, K., Callister, T. 2021, PRD, 103, 083021
10. Neutron star-black hole mergers from gravitational wave captures
Hoang, B.-M., Naoz, S., Kremer, K. 2020, ApJ, 903, 8
9. Black hole mergers from hierarchical triples in dense star clusters
Martinez, M. A. S., Fragione, G., Kremer, K., et al. 2020, ApJ, 903, 67
8. Populating the upper black hole mass gap through stellar collisions in dense star clusters
Kremer, K., Spera, M., Becker, D., Chatterjee, S., et al. 2020, ApJ, 904, 45
7. GW190412 as a third-generation black hole merger from a super star cluster
Rodriguez, C. L., Kremer, K., Grudić, M., Hafen, Z., et al. 2020, ApJ, 896, L10
6. Gravitational-wave captures by intermediate-mass black holes in galactic nuclei
Fragione, G., Loeb, A., Kremer, K., Rasio, F. A., 2020, ApJ, 897, 46
5. Gravitational-wave captures of single black holes in globular clusters
Samsing, J., D’Orazio, D.J., Kremer, K., Rodriguez, C.L., Askar, A. 2019, PRD, 101, 123010
4. Black holes: The next generation — Repeated mergers in dense star clusters and their gravitational-wave properties
Rodriguez, C.L., Zevin, M., Amaro-Seoane, P., Chatterjee, S., Kremer, K., PRD, 100, 043027
3. Post-Newtonian Dynamics in Dense Star Clusters: Binary Black Holes in the LISA Band
Kremer, K., Rodriguez, C. L., Amaro-Seoane, P. et al. 2018, PRD, 99, 063003
2. Post-Newtonian Dynamics in Dense Star Clusters: Formation, Masses, and Merger Rates of Highly-Eccentric Black Hole Binaries
Rodriguez, C. L., Amaro-Seoane, P., Chatterjee, S., Kremer, K. et al. 2018, PRD, 98, 123005
1. LISA sources in Milky-Way globular clusters
Kremer, K., Chatterjee, S., Breivik, K., Rodriguez, C. L., Larson, S. L., Rasio, F. A. 2018, PRL, 120, 191103
Black Holes in Globular Clusters
12. Dynamical formation of Gaia BH3 in the progenitor globular cluster of the ED-2 stream
Marín Pina, D., Rastello, S., Gieles, M., Kremer, K., et al. 2024, submitted
11. An elusive dark central mass in the globular cluster M4
Vitral, E., Libraloto, M., Kremer, K., et al. 2023, MNRAS, 522, 5740
10. Can LISA resolve black hole binaries in the M87 globular clusters?
Evans, D. & Kremer, K. 2023, RNAAS, 7, 18987 globular clusters
9. Stellar graveyards: Clustering of compact objects in globular clusters NGC 3201 and NGC 6397
Vitral, E., Kremer, K., et al. 2022, MNRAS, 514, 806n the M87 globular cluster
8. No black holes in NGC 6397
Rui, N.Z., Weatherford, N.C., Kremer, K., et al. 2021, RNAAS, 5, 47
7. Black hole mergers from star clusters with top-heavy initial mass functions
Weatherford, N.C., Fragione, G., Kremer, K., Ye, C.S., Rasio, F. A., 2021, ApJ, 907, 25L
6. Illuminating black hole cusp populations in young star clusters
Kaaz, N., Kremer, K., Auchettl, K., Ramirez-Ruiz, E. 2020, ApJ, 917, 36
5. A Dynamical Survey of Stellar-Mass Black Holes in 50 Milky Way Globular Clusters
Weatherford, N.C., Chatterjee, S., Kremer, K., Rasio, F.A. 2020, ApJ, 898, 162
4. The role of “black hole burning” in the evolution of dense star clusters
Kremer, K., Ye, C.S., Chatterjee, S., Rodriguez, C.L., Rasio, F.A. 2020, Star Clusters: From the Milky Way to the Early Universe. Proceedings of the International Astronomical Union, Volume 351, 357
3. Low-mass X-ray binaries ejected from globular clusters
Kremer, K., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2019, arXiv: 1802.04895
2. How black holes shape globular clusters: Modeling NGC 3201
Kremer, K., Ye, S., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2018, ApJL, 855, L15
1. Accreting black hole binaries in globular clusters
Kremer, K., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2018, ApJ, 852, 29
Tidal Disruption Events & Hydrodynamics
5. Wind-reprocessed transients from stellar-mass black hole tidal disruption events
Kremer, K., Mockler, B., Piro, A. L., Lombardi, J., 2023, MNRAS, 524, 6358
4. Hydrodynamics of close encounters between stars and black hole remnants
Kremer, K., Lombardi, J., Lu, W., Piro, A.L., Rasio, F.A., 2022, ApJ, 933, 203
3. Fast optical transients from stellar-mass black hole tidal disruption events in young star clusters
Kremer, K., Lu, W., Piro, A.L., et al. 2021, ApJ, 911, 104
2. Tidal disruptions of stars by black hole remnants in dense star clusters
Kremer, K., Lu, W., Rodriguez, C.L., Lachat, M., Rasio, F.A. 2019, ApJ, 881, 75
1. Probing the black hole merger history in clusters using stellar tidal disruptions
Samsing, J., Venumadhav, T., Dai, L., Martinez, I., Batta, A., Lopez Jr., M., Ramirez-Ruiz, E., Kremer, K., 2019, PRD, 100, 043009
White Dwarf Binaries & LISA
7. Constraining white dwarf tides from gravitational waves with LISA
Biscoveanu, S., Kremer, K., Thrane, E. 2023, ApJ, 949, 95
6. Astrophysics with the Laser Interferometer Space Antenna
Amaro-Seoane et al. (including Kremer, K.) 2023, LRR, 26, 2
5. White dwarf subsystems in core-collapsed globular clusters
Kremer, K., Rui, N.Z., Weatherford, N.C., Chatterjee, S., et al. 2021, ApJ, 917, 28
4. Gravitational wave survey of Galactic ultra compact binaries
Littenberg, T.B., Breivik, K., Brown, W.R., Eracleous, M., Hermes, J.J., Holley-Bockelmann, K., Kremer, K., et al. 2020, Astro2020 White Paper; Bulletin of the AAS, 51, 34
3. Characterizing accreting double white dwarf binaries with LISA and Gaia
Breivik, K., Kremer, K., Bueno, M., Larson, S. L., Coughlin, S., Kalogera, V. 2018, ApJL, 854, L1
2. Accreting double white dwarf binaries: Implications for LISA
Kremer, K., Breivik, K., Larson, S. L., Kalogera, V. 2017, ApJ, 846, 95
1. Long-term evolution of double white dwarf binaries accreting through direct impact
Kremer, K., Sepinsky, J., Kalogera, V. 2015, ApJ, 806, 76
Neutron Stars & Millisecond Pulsars
9. Single millisecond pulsars from dynamical interaction processes in dense star clusters
Ye, C.S., Kremer, K., Ransom, S.M., Rasio, F.A., ApJ, 2024, 961, 98
8. Connecting the young pulsars in Milky Way globular clusters with white dwarf mergers and the M81 fast radio burst
Kremer, K., Fuller, J., Piro, A.L., Ransom, S.M. 2023, MNRAS, 525, L22
7. Radio detection of an elusive millisecond pulsar in the globular cluster NGC 6397
Zhang, L. et al. (including Kremer, K.) 2022, ApJL, 934, L21
6. Formation of low-mass black holes and single millisecond pulsars in globular clusters
Kremer, K., Ye., C.S., Kiroglu, F., Lombardi, J., Ransom, S., Rasio, F.A., 2022, ApJL, 934, L1
5. Modeling pulsars in dense star clusters
Ye, C.S., Kremer, K., et al. 2020, Proceedings of the IAU, 351, 549
4. On the rate of binary neutron star mergers in globular clusters
Ye, C.S., Fong, W.-F., Kremer, K., Rodriguez, C.L., Chatterjee, S., Fragione, G., Rasio, F.A., 2020, ApJ, 888, L10
3. Can neutron-star mergers explain the r-process enrichment in globular clusters?
Zevin, M., Kremer, K., Siegel, D.M., Coughlin, S., Tsang, B.T.-H., Berry, C.P.L., Kalogera, V. 2019, ApJ, 886, 4
2. Millisecond pulsars and black holes in globular clusters
Ye, S. C., Kremer, K., Chatterjee, S., Rodriguez, C.L., Rasio, F.A. 2019, ApJ, 877, 2
1. Spin tilts in the double pulsar reveal supernova spin angular-momentum production
Farr, W. M., Kremer, K., Lyutikov, M., Kalogera, V. 2011, ApJ, 742, 81
Star Cluster Dynamics
10. Stellar Escape from Globular Clusters II: Clusters May Eat Their Own Tails
Weatherford, N., Rasio, F.A., Chatterjee, S., Fragione, G., Kiroglu, F., Kremer, K. 2024, ApJ, 967, 42
9. Stellar Escape from Globular Clusters I: Escape Mechanisms and Properties at Ejection
Weatherford, N.C., Kiroglu, F., Fragione, G., Chatterjee, S., Kremer, K., Rasio, F.A. 2023, ApJ, 946, 104
8. Gravitational Microlensing Rates in Milky Way Globular Clusters
Kiroglu, F., Weatherford, N.C., Kremer, K. et al. 2022, ApJ, 928, 181
7. Compact object modeling in the globular cluster 47 Tucanae
Ye, C.S., Kremer, K. et al. 2022, ApJ, 931, 84
6. Modeling dense star clusters in the Milky Way and beyond with the Cluster Monte Carlo code
Rodriguez, C.L. et al. (including Kremer, K.), 2021, ApJS, 258, 22
5. Matching globular cluster models to observations
Rui, N.Z., Kremer, K., Weatherford, N.C., Chatterjee, S., Rasio, F.A., Rodriguez, C.L., Ye., C.S., 2021, ApJ, 912, 102
4. Demographics of triple systems in dense star clusters
Fragione, G., Martinez, M. A. S., Kremer, K., et al. 2020, ApJ, 900, 16
3. Modeling Dense Star Clusters in the Milky Way and Beyond with the CMC Cluster Catalog
Kremer, K., Ye, C.S., Rui, N.Z., Weatherford, N.C., et al., 2020, ApJS, 247, 48
2. In search of the thermal eccentricity distribution
Geller, A. M., Leigh, N. W. C., Giersz, M., Kremer, K., Rasio, F. A., 2019, ApJ, 872, 165
1. How initial size governs core collapse in globular clusters
Kremer, K., Chatterjee, S., Ye, C. S., Rodriguez, C. L., Rasio, F. A. 2018, ApJ, 871, 1
Intermediate-Mass Black Holes:
8. Feedback-regulated Seed Black Hole Growth in Star-Forming Molecular Clouds and Galactic Nuclei
Shi, Y., Kremer, K., Hopkins, P.F. 2024, submitted
7. IMBH Progenitors from Stellar Collisions in Dense Star Clusters
González Prieto, E., Weatherford, N., Fragione, G., Kremer, K., Rasio, F.A. 2024, accepted by ApJ
6. Growing black holes through successive mergers in galactic nuclei: I. Methods and first results
Atallah, D., Trani, A.A., Kremer, K., Weatherford, N.C., Fragione, G., et al. 2023, MNRAS, 523, 4227
5. Tidal disruption of main-sequence stars by intermediate-mass black holes
Kiroglu, F., Lombardi, J., Kremer, K., Fragione, G., Fogarty, S., Rasio, F.A. 2023, ApJ, 948, 89
4. Hyper-Eddington black hole growth in star-forming molecular clouds and galactic nuclei: Can it happen?
Shi, Y., Kremer, K., Grudić, M., Gerlong-Dunsmore, H. J., Hopkins, P. F. 2023, MNRAS, 518, 3606
3. Intermediate-mass black holes on the run from young star clusters
González Prieto, E., Kremer, K., Fragione, G. et al. 2022, ApJ, 940, 131
2. The effect of metallicity on the formation of massive black holes through stellar collisions in young massive star clusters
Shrivastava, R. & Kremer, K., 2022, RNAAS, 6, 157
1. Intermediate-mass black holes from high massive-star binary fractions in young star clusters
González, E., Kremer, K., Chatterjee, S., et al. 2021, ApJ, 928, L29
Fast Radio Bursts
2. Prospects for detecting fast radio bursts in globular clusters of nearby galaxies
Kremer, K., Li, D., Lu, W., Piro, A.L., Zhang, B, 2023, ApJ, 944, 6
1. Dynamical formation channels for fast radio bursts in globular clusters
Kremer, K., Piro, A.L., Li, D. 2021, ApJL, 917, L11
Planets in Stellar Clusters
1. Probing the survival of planetary systems in globular clusters with tidal disruption events
Kremer, K., D’Orazio, D.J., Samsing, J., Chatterjee, S., Rasio, F.A. 2019, ApJ, 885, 2
Binary Stellar Evolution
1. COSMIC Variance in Binary Population Synthesis
Breivik, K., Coughlin, S., Zevin, M., Rodriguez, C., Kremer, K., et al. 2020, ApJ, 898, 71
Gravitational Wave Sources
17. Spin Doctors: How to diagnose a hierarchical merger origin
Payne, E., Kremer, K., Zevin, M. 2024, ApJ, 966, L16
16. The imprint of superradiance on hierarchical black hole mergers
Payne, E. Sun, L., Kremer, K., Lasky, P.D., Thrane, E. 2022, ApJ, 931, 79
15. The observed rate of binary black hole mergers can be entirely explained by globular clusters
Rodriguez, C.L., Kremer, K., et al. 2021, RNAAS, 5, 19
14. Implications of eccentric observations on binary black hole formation channels
Zevin, M., Romero-Shaw, I., Kremer, K., Thrane, E., Lasky, P.D. 2021, ApJ, 921, L43
13. The Supersonic Project: SIGOs, a proposed progenitor to globular clusters, and their connections to gravitational wave anisotropies
Lake, W., Naoz, S., Chiou, Y.S., Burkhart, B., Marinacci, F., Vogelsberger, M., Kremer, K., 2021, ApJ, 922, 86
12. Gravitational waves as a probe of globular cluster formation and evolution
Romero-Shaw, I., Kremer, K., Lasky, P., Thrane, E., Samsing, J. 2021, MNRAS, 506, 2362
11. Joint constraints on the field-cluster mixing fraction, common envelope efficiency, and globular cluster radii from a population of binary hole mergers via deep learning
Wong, K., Breivik, K., Kremer, K., Callister, T. 2021, PRD, 103, 083021
10. Neutron star-black hole mergers from gravitational wave captures
Hoang, B.-M., Naoz, S., Kremer, K. 2020, ApJ, 903, 8
9. Black hole mergers from hierarchical triples in dense star clusters
Martinez, M. A. S., Fragione, G., Kremer, K., et al. 2020, ApJ, 903, 67
8. Populating the upper black hole mass gap through stellar collisions in dense star clusters
Kremer, K., Spera, M., Becker, D., Chatterjee, S., et al. 2020, ApJ, 904, 45
7. GW190412 as a third-generation black hole merger from a super star cluster
Rodriguez, C. L., Kremer, K., Grudić, M., Hafen, Z., et al. 2020, ApJ, 896, L10
6. Gravitational-wave captures by intermediate-mass black holes in galactic nuclei
Fragione, G., Loeb, A., Kremer, K., Rasio, F. A., 2020, ApJ, 897, 46
5. Gravitational-wave captures of single black holes in globular clusters
Samsing, J., D’Orazio, D.J., Kremer, K., Rodriguez, C.L., Askar, A. 2019, PRD, 101, 123010
4. Black holes: The next generation — Repeated mergers in dense star clusters and their gravitational-wave properties
Rodriguez, C.L., Zevin, M., Amaro-Seoane, P., Chatterjee, S., Kremer, K., PRD, 100, 043027
3. Post-Newtonian Dynamics in Dense Star Clusters: Binary Black Holes in the LISA Band
Kremer, K., Rodriguez, C. L., Amaro-Seoane, P. et al. 2018, PRD, 99, 063003
2. Post-Newtonian Dynamics in Dense Star Clusters: Formation, Masses, and Merger Rates of Highly-Eccentric Black Hole Binaries
Rodriguez, C. L., Amaro-Seoane, P., Chatterjee, S., Kremer, K. et al. 2018, PRD, 98, 123005
1. LISA sources in Milky-Way globular clusters
Kremer, K., Chatterjee, S., Breivik, K., Rodriguez, C. L., Larson, S. L., Rasio, F. A. 2018, PRL, 120, 191103
Black Holes in Globular Clusters
12. Dynamical formation of Gaia BH3 in the progenitor globular cluster of the ED-2 stream
Marín Pina, D., Rastello, S., Gieles, M., Kremer, K., et al. 2024, submitted
11. An elusive dark central mass in the globular cluster M4
Vitral, E., Libraloto, M., Kremer, K., et al. 2023, MNRAS, 522, 5740
10. Can LISA resolve black hole binaries in the M87 globular clusters?
Evans, D. & Kremer, K. 2023, RNAAS, 7, 18987 globular clusters
9. Stellar graveyards: Clustering of compact objects in globular clusters NGC 3201 and NGC 6397
Vitral, E., Kremer, K., et al. 2022, MNRAS, 514, 806n the M87 globular cluster
8. No black holes in NGC 6397
Rui, N.Z., Weatherford, N.C., Kremer, K., et al. 2021, RNAAS, 5, 47
7. Black hole mergers from star clusters with top-heavy initial mass functions
Weatherford, N.C., Fragione, G., Kremer, K., Ye, C.S., Rasio, F. A., 2021, ApJ, 907, 25L
6. Illuminating black hole cusp populations in young star clusters
Kaaz, N., Kremer, K., Auchettl, K., Ramirez-Ruiz, E. 2020, ApJ, 917, 36
5. A Dynamical Survey of Stellar-Mass Black Holes in 50 Milky Way Globular Clusters
Weatherford, N.C., Chatterjee, S., Kremer, K., Rasio, F.A. 2020, ApJ, 898, 162
4. The role of “black hole burning” in the evolution of dense star clusters
Kremer, K., Ye, C.S., Chatterjee, S., Rodriguez, C.L., Rasio, F.A. 2020, Star Clusters: From the Milky Way to the Early Universe. Proceedings of the International Astronomical Union, Volume 351, 357
3. Low-mass X-ray binaries ejected from globular clusters
Kremer, K., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2019, arXiv: 1802.04895
2. How black holes shape globular clusters: Modeling NGC 3201
Kremer, K., Ye, S., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2018, ApJL, 855, L15
1. Accreting black hole binaries in globular clusters
Kremer, K., Chatterjee, S., Rodriguez, C. L., Rasio, F. A. 2018, ApJ, 852, 29
Tidal Disruption Events & Hydrodynamics
5. Wind-reprocessed transients from stellar-mass black hole tidal disruption events
Kremer, K., Mockler, B., Piro, A. L., Lombardi, J., 2023, MNRAS, 524, 6358
4. Hydrodynamics of close encounters between stars and black hole remnants
Kremer, K., Lombardi, J., Lu, W., Piro, A.L., Rasio, F.A., 2022, ApJ, 933, 203
3. Fast optical transients from stellar-mass black hole tidal disruption events in young star clusters
Kremer, K., Lu, W., Piro, A.L., et al. 2021, ApJ, 911, 104
2. Tidal disruptions of stars by black hole remnants in dense star clusters
Kremer, K., Lu, W., Rodriguez, C.L., Lachat, M., Rasio, F.A. 2019, ApJ, 881, 75
1. Probing the black hole merger history in clusters using stellar tidal disruptions
Samsing, J., Venumadhav, T., Dai, L., Martinez, I., Batta, A., Lopez Jr., M., Ramirez-Ruiz, E., Kremer, K., 2019, PRD, 100, 043009
White Dwarf Binaries & LISA
7. Constraining white dwarf tides from gravitational waves with LISA
Biscoveanu, S., Kremer, K., Thrane, E. 2023, ApJ, 949, 95
6. Astrophysics with the Laser Interferometer Space Antenna
Amaro-Seoane et al. (including Kremer, K.) 2023, LRR, 26, 2
5. White dwarf subsystems in core-collapsed globular clusters
Kremer, K., Rui, N.Z., Weatherford, N.C., Chatterjee, S., et al. 2021, ApJ, 917, 28
4. Gravitational wave survey of Galactic ultra compact binaries
Littenberg, T.B., Breivik, K., Brown, W.R., Eracleous, M., Hermes, J.J., Holley-Bockelmann, K., Kremer, K., et al. 2020, Astro2020 White Paper; Bulletin of the AAS, 51, 34
3. Characterizing accreting double white dwarf binaries with LISA and Gaia
Breivik, K., Kremer, K., Bueno, M., Larson, S. L., Coughlin, S., Kalogera, V. 2018, ApJL, 854, L1
2. Accreting double white dwarf binaries: Implications for LISA
Kremer, K., Breivik, K., Larson, S. L., Kalogera, V. 2017, ApJ, 846, 95
1. Long-term evolution of double white dwarf binaries accreting through direct impact
Kremer, K., Sepinsky, J., Kalogera, V. 2015, ApJ, 806, 76
Neutron Stars & Millisecond Pulsars
9. Single millisecond pulsars from dynamical interaction processes in dense star clusters
Ye, C.S., Kremer, K., Ransom, S.M., Rasio, F.A., ApJ, 2024, 961, 98
8. Connecting the young pulsars in Milky Way globular clusters with white dwarf mergers and the M81 fast radio burst
Kremer, K., Fuller, J., Piro, A.L., Ransom, S.M. 2023, MNRAS, 525, L22
7. Radio detection of an elusive millisecond pulsar in the globular cluster NGC 6397
Zhang, L. et al. (including Kremer, K.) 2022, ApJL, 934, L21
6. Formation of low-mass black holes and single millisecond pulsars in globular clusters
Kremer, K., Ye., C.S., Kiroglu, F., Lombardi, J., Ransom, S., Rasio, F.A., 2022, ApJL, 934, L1
5. Modeling pulsars in dense star clusters
Ye, C.S., Kremer, K., et al. 2020, Proceedings of the IAU, 351, 549
4. On the rate of binary neutron star mergers in globular clusters
Ye, C.S., Fong, W.-F., Kremer, K., Rodriguez, C.L., Chatterjee, S., Fragione, G., Rasio, F.A., 2020, ApJ, 888, L10
3. Can neutron-star mergers explain the r-process enrichment in globular clusters?
Zevin, M., Kremer, K., Siegel, D.M., Coughlin, S., Tsang, B.T.-H., Berry, C.P.L., Kalogera, V. 2019, ApJ, 886, 4
2. Millisecond pulsars and black holes in globular clusters
Ye, S. C., Kremer, K., Chatterjee, S., Rodriguez, C.L., Rasio, F.A. 2019, ApJ, 877, 2
1. Spin tilts in the double pulsar reveal supernova spin angular-momentum production
Farr, W. M., Kremer, K., Lyutikov, M., Kalogera, V. 2011, ApJ, 742, 81
Star Cluster Dynamics
10. Stellar Escape from Globular Clusters II: Clusters May Eat Their Own Tails
Weatherford, N., Rasio, F.A., Chatterjee, S., Fragione, G., Kiroglu, F., Kremer, K. 2024, ApJ, 967, 42
9. Stellar Escape from Globular Clusters I: Escape Mechanisms and Properties at Ejection
Weatherford, N.C., Kiroglu, F., Fragione, G., Chatterjee, S., Kremer, K., Rasio, F.A. 2023, ApJ, 946, 104
8. Gravitational Microlensing Rates in Milky Way Globular Clusters
Kiroglu, F., Weatherford, N.C., Kremer, K. et al. 2022, ApJ, 928, 181
7. Compact object modeling in the globular cluster 47 Tucanae
Ye, C.S., Kremer, K. et al. 2022, ApJ, 931, 84
6. Modeling dense star clusters in the Milky Way and beyond with the Cluster Monte Carlo code
Rodriguez, C.L. et al. (including Kremer, K.), 2021, ApJS, 258, 22
5. Matching globular cluster models to observations
Rui, N.Z., Kremer, K., Weatherford, N.C., Chatterjee, S., Rasio, F.A., Rodriguez, C.L., Ye., C.S., 2021, ApJ, 912, 102
4. Demographics of triple systems in dense star clusters
Fragione, G., Martinez, M. A. S., Kremer, K., et al. 2020, ApJ, 900, 16
3. Modeling Dense Star Clusters in the Milky Way and Beyond with the CMC Cluster Catalog
Kremer, K., Ye, C.S., Rui, N.Z., Weatherford, N.C., et al., 2020, ApJS, 247, 48
2. In search of the thermal eccentricity distribution
Geller, A. M., Leigh, N. W. C., Giersz, M., Kremer, K., Rasio, F. A., 2019, ApJ, 872, 165
1. How initial size governs core collapse in globular clusters
Kremer, K., Chatterjee, S., Ye, C. S., Rodriguez, C. L., Rasio, F. A. 2018, ApJ, 871, 1
Intermediate-Mass Black Holes:
8. Feedback-regulated Seed Black Hole Growth in Star-Forming Molecular Clouds and Galactic Nuclei
Shi, Y., Kremer, K., Hopkins, P.F. 2024, submitted
7. IMBH Progenitors from Stellar Collisions in Dense Star Clusters
González Prieto, E., Weatherford, N., Fragione, G., Kremer, K., Rasio, F.A. 2024, accepted by ApJ
6. Growing black holes through successive mergers in galactic nuclei: I. Methods and first results
Atallah, D., Trani, A.A., Kremer, K., Weatherford, N.C., Fragione, G., et al. 2023, MNRAS, 523, 4227
5. Tidal disruption of main-sequence stars by intermediate-mass black holes
Kiroglu, F., Lombardi, J., Kremer, K., Fragione, G., Fogarty, S., Rasio, F.A. 2023, ApJ, 948, 89
4. Hyper-Eddington black hole growth in star-forming molecular clouds and galactic nuclei: Can it happen?
Shi, Y., Kremer, K., Grudić, M., Gerlong-Dunsmore, H. J., Hopkins, P. F. 2023, MNRAS, 518, 3606
3. Intermediate-mass black holes on the run from young star clusters
González Prieto, E., Kremer, K., Fragione, G. et al. 2022, ApJ, 940, 131
2. The effect of metallicity on the formation of massive black holes through stellar collisions in young massive star clusters
Shrivastava, R. & Kremer, K., 2022, RNAAS, 6, 157
1. Intermediate-mass black holes from high massive-star binary fractions in young star clusters
González, E., Kremer, K., Chatterjee, S., et al. 2021, ApJ, 928, L29
Fast Radio Bursts
2. Prospects for detecting fast radio bursts in globular clusters of nearby galaxies
Kremer, K., Li, D., Lu, W., Piro, A.L., Zhang, B, 2023, ApJ, 944, 6
1. Dynamical formation channels for fast radio bursts in globular clusters
Kremer, K., Piro, A.L., Li, D. 2021, ApJL, 917, L11
Planets in Stellar Clusters
1. Probing the survival of planetary systems in globular clusters with tidal disruption events
Kremer, K., D’Orazio, D.J., Samsing, J., Chatterjee, S., Rasio, F.A. 2019, ApJ, 885, 2
Binary Stellar Evolution
1. COSMIC Variance in Binary Population Synthesis
Breivik, K., Coughlin, S., Zevin, M., Rodriguez, C., Kremer, K., et al. 2020, ApJ, 898, 71