Unification of Thermal and Quantum Noises in Gravitational-Wave Detectors by Whittle, Chris, McCuller, Lee, Sudhir, Vivishek, Evans, Matthew

“…Contemporary gravitational-wave detectors are fundamentally limited by thermal noise-due to dissipation in the mechanical elements of the test mass-and quantum noise-from the vacuum fluctuations of the optical field used to probe the test-mass position. …”
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Expanding the Reach of Quantum Enhanced Gravitational-Wave Detectors by Ganapathy, Dhruva

“…The introduction of non-classical squeezed states to reduce quantum shot noise during the third gravitational wave observing run O3 ushered in the era of quantum-enhanced gravitational wave interferometry. …”
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Towards detecting gravitational waves from the Crab Pulsar by Rapoport, Sharon, S.B. Massachusetts Institute of Technology

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Cosmology using advanced gravitational-wave detectors alone by Mandel, Ilya, Taylor, Stephen R., Gair, Jonathan R.

“…Gravitational-wave observations with a network of detectors will permit a direct, independent measurement of the distance to the source systems. …”
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Techniques for improving the readout sensitivity of gravitational wave antennae by Smith-Lefebvre, Nicolás de Mateo

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Realistic filter cavities for advanced gravitational wave detectors by Harms, J., Miao, H., Barsotti, Lisa, Kwee, Patrick, Evans, Matthew J

“…In this paper we propose a practical approach to producing frequency-dependent squeezing for Advanced Laser Interferometer Gravitational-Wave Observatory (LIGO) and similar interferometric gravitational wave detectors. …”
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SEARCH FOR GRAVITATIONAL WAVE BURSTS FROM SIX MAGNETARS by Barsotti, Lisa, Blackburn, Lindy L., Bodiya, Timothy Paul, Corbitt, Thomas R., Donovan, Frederick J., Dwyer, S., Evans, Matthew J., Foley, S., Fritschel, Peter K., Harry, Gregory, Hughey, B., Katsavounidis, Erotokritos, MacInnis, Myron E., Mason, Kenneth R., Matichard, Fabrice, Mavalvala, Nergis, Mittleman, Richard K., Shapiro, B., Shoemaker, David H., Smith-Lefebvre, Nicolas D., Soto, J., Stein, A. J., Waldman, S. J., Weiss, Rainer, Wipf, Christopher, Zucker, Michael E.

“…The burst mechanism might involve crustal fractures and excitation of non-radial modes which would emit gravitational waves (GWs). We present the results of a search for GW bursts from six galactic magnetars that is sensitive to neutron star f-modes, thought to be the most efficient GW emitting oscillatory modes in compact stars. …”
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Resonant dampers for parametric instabilities in gravitational wave detectors by Barsotti, Lisa, Gras, Slawomir, Fritschel, Peter K, Evans, Matthew J

“…Advanced gravitational wave interferometric detectors will operate at their design sensitivity with nearly ~1  MW of laser power stored in the arm cavities. …”
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CMB-S4: forecasting constraints on primordial gravitational waves by Abazajian, K, Addison, GE, Adshead, P, Alonso, D

“…Among the science cases pursued with CMB-S4, the quest for detecting primordial gravitational waves is a central driver of the experimental design. …”

On the difficulty of generating gravitational wave turbulence in the early universe by Clough, K, Niemeyer, J

“…Lett. 119 221101) proposed that weakly nonlinear gravitational waves could result in a turbulent cascade, with energy flowing from high to low frequency modes or vice versa. …”

Multimessenger time delays from lensed gravitational waves by Baker, T, Trodden, M

“…Obvious messenger examples are massless photons and gravitational waves, and massive neutrinos, although more exotic applications can also be imagined, such as to massive gravitons or axions. …”

Astrophysical gravitational-wave echoes from galactic nuclei by Gondán, L, Kocsis, B

“…<p>Galactic nuclei (GNs) are dense stellar environments abundant in gravitational-wave (GW) sources for the Laser Interferometer Gravitational-Wave Observatory (LIGO), Virgo, and Kamioka Gravitational Wave Detector (KAGRA). …”

Gravitational waves from high-power twisted light by Atonga, E, Martineau, K, Aboushelbaya, R, von der Leyen, M, Howard, S, Lee, J, Martin, H, Ouatu, I, Paddock, R, Ruskov, R, Timmis, R, Norreys, P

“…In this work, the potential of twisted light for the generation of gravitational waves in the high frequency regime is explored for the first time. …”

Search Methods for Continuous Gravitational-Wave Signals from Unknown Sources in the Advanced-Detector Era by Rodrigo Tenorio, David Keitel, Alicia M. Sintes

Subjects: “…gravitational waves…”
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Scope Out Multiband Gravitational-Wave Observations of GW190521-Like Binary Black Holes with Space Gravitational Wave Antenna B-DECIGO by Hiroyuki Nakano, Ryuichi Fujita, Soichiro Isoyama, Norichika Sago

Subjects: “…gravitational waves…”
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A review of laser system of interferometric gravitational wave detector / by 267497 Ng, Ee Jin, Karsono Ahmad Dasuki,lcsupervisor, Fakulti Sains

Subjects: “…Gravitational waves…”

Black holes, gravitational waves and cosmology : an introduction to current research/ by 191005 Rees, Martin, Ruffini, Remo, Wheeler, John Archibald

A novel probe of supersymmetry in light of nanohertz gravitational waves by Kai Murai, Wen Yin

“…Abstract A new era of exploring the early Universe may have begun with the recent strong evidence for the stochastic gravitational wave (GW) background from the data reported by NANOGrav, EPTA (including InPTA data), PPTA, and CPTA. …”
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PBH-infused seesaw origin of matter and unique gravitational waves by Debasish Borah, Suruj Jyoti Das, Rome Samanta, Federico R. Urban

“…In this work, we show that, even if the RH neutrinos are super-heavy (M i=1,2,3 > 109 GeV)—close to the Grand Unification scale—the model can be tested thanks to its distinct features on the stochastic Gravitational Wave (GW) background. We consider an early Universe filled with ultralight primordial black holes (PBH) that produce a super-heavy RH neutrino DM via Hawking radiation. …”
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Thermal noise from icy mirrors in gravitational wave detectors by Jessica Steinlechner, Iain W. Martin

“…The detection of gravitational waves has established a new and very exciting field of astronomy in the past few years. …”
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