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708 results on '"Cole, G. D."'

1. Substrate-transferred GaAs/AlGaAs crystalline coatings for gravitational-wave detectors: A review of the state of the art

Author

Cole, G. D., Ballmer, S., Billingsley, G., Cataño-Lopez, S. B., Fejer, M., Fritschel, P., Gretarsson, A. M., Harry, G. M., Kedar, D., Legero, T., Makarem, C., Penn, S. D., Reitze, D., Steinlechner, J., Sterr, U., Tanioka, S., Truong, G. -W., Ye, J., and Yu, J.

Subjects
Physics - Optics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

In this Perspective we summarize the status of technological development for large-area and low-noise substrate-transferred GaAs/AlGaAs (AlGaAs) crystalline coatings for interferometric gravitational-wave (GW) detectors. These topics were originally presented in a workshop{\dag} bringing together members of the GW community from the laser interferometer gravitational-wave observatory (LIGO), Virgo, and KAGRA collaborations, along with scientists from the precision optical metrology community, and industry partners with extensive expertise in the manufacturing of said coatings. AlGaAs-based crystalline coatings present the possibility of GW observatories having significantly greater range than current systems employing ion-beam sputtered mirrors. Given the low thermal noise of AlGaAs at room temperature, GW detectors could realize these significant sensitivity gains, while potentially avoiding cryogenic operation. However, the development of large-area AlGaAs coatings presents unique challenges. Herein, we describe recent research and development efforts relevant to crystalline coatings, covering characterization efforts on novel noise processes, as well as optical metrology on large-area (~10 cm diameter) mirrors. We further explore options to expand the maximum coating diameter to 20 cm and beyond, forging a path to produce low-noise AlGaAs mirrors amenable to future GW detector upgrades, while noting the unique requirements and prospective experimental testbeds for these novel materials., Comment: 13pages, 3 figures

Published
2023
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2. Mid-infrared supermirrors with finesse exceeding 400 000

Author

Truong, G. -W., Perner, L. W., Bailey, D. M., Winkler, G., Cataño-Lopez, S. B., Wittwer, V. J., Sudmeyer, T., Nguyen, C., Follman, D., Fleisher, A. J., Heckl, O. H., and Cole, G. D.

Subjects
Physics - Optics
Abstract

For trace gas sensing and precision spectroscopy, optical cavities incorporating low-loss mirrors are indispensable for path length and optical intensity enhancement. Optical interference coatings in the visible and near-infrared (NIR) spectral regions have achieved total optical losses below 2 parts per million (ppm), enabling a cavity finesse in excess of 1 million. However, such advancements have been lacking in the mid-infrared (MIR), despite substantial scientific interest. Here, we demonstrate a significant breakthrough in high-performance MIR mirrors, reporting substrate-transferred single-crystal interference coatings capable of cavity finesse values from 200 000 to 400 000 near 4.5 um, with excess optical losses (scatter and absorption) below 5 ppm. In a first proof-of-concept demonstration, we achieve the lowest noise-equivalent absorption in a linear cavity ring-down spectrometer normalized by cavity length. This substantial improvement in performance will unlock a rich variety of MIR applications for atmospheric transport and environmental sciences, detection of fugitive emissions, process gas monitoring, breath-gas analysis, and verification of biogenic fuels and plastics., Comment: Sept 21: Minor revisions to conform to 2-page length requirement including abbr. refs.; Figure font sizes increased Jul 24: Major revisions, including hybrid mirrors and spectroscopy

Published
2022
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5. Note

Author

Cole, G. D. H., primary, Salter, Arthur, additional, Steed, Wickham, additional, Webb, Sidney, additional, Blackett, P. M. S., additional, and Hogben, Lancelot, additional

Published
2023
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23. Mid-infrared monocrystalline interference coatings with excess optical loss below 10 ppm

Author

Winkler, G., Perner, L. W., Truong, G. -W., Zhao, G., Bachmann, D., Mayer, A. S., Fellinger, J., Follman, D., Heu, P., Deutsch, C., Bailey, D. M., Peelaers, H., Puchegger, S., Fleisher, A. J., Cole, G. D., and Heckl, O. H.

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

We present high-reflectivity substrate-transferred single-crystal GaAs/AlGaAs interference coatings at a center wavelength of 4.54 um with record-low excess optical loss below 10 parts per million. These high-performance mirrors are realized via a novel microfabrication process that differs significantly from the production of amorphous multilayers generated via physical vapor deposition processes. This new process enables reduced scatter loss due to the low surface and interfacial roughness, while low background doping in epitaxial growth ensures strongly reduced absorption. We report on a suite of optical measurements, including cavity ring-down, transmittance spectroscopy, and direct absorption tests to reveal the optical losses for a set of prototype mirrors. In the course of these measurements, we observe a unique polarization-orientation-dependent loss mechanism which we attribute to elastic anisotropy of these strained epitaxial multilayers. A future increase in layer count and a corresponding reduction of transmittance will enable optical resonators with a finesse in excess of 100 000 in the mid-infrared spectral region, allowing for advances in high resolution spectroscopy, narrow-linewidth laser stabilization, and ultrasensitive measurements of various light-matter interactions.

Published
2020

24. Mid-infrared interference coatings with excess optical loss below 10 ppm: erratum

Author

Perner, L. W., primary, Winkler, G., additional, Truong, G.-W., additional, Zhao, G., additional, Bachmann, D., additional, Mayer, A. S., additional, Fellinger, J., additional, Follman, D., additional, Heu, P., additional, Deutsch, C., additional, Bailey, D. M., additional, Peelaers, H., additional, Puchegger, S., additional, Fleisher, A. J., additional, Cole, G. D., additional, and Heckl, O. H., additional

Published
2024
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27. Tensile strained $In_{x}Ga_{1-x}P$ membranes for cavity optomechanics

Author

Cole, G. D., Yu, P. -L., Gärtner, C., Siquans, K., Nia, R. Moghadas, Schmöle, J., Hoelscher-Obermaier, J., Purdy, T. P., Wieczorek, W., Regal, C. A., and Aspelmeyer, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics, Quantum Physics
Abstract

We investigate the optomechanical properties of tensile-strained ternary InGaP nanomembranes grown on GaAs. This material system combines the benefits of highly strained membranes based on stoichiometric silicon nitride, with the unique properties of thin-film semiconductor single crystals, as previously demonstrated with suspended GaAs. Here we employ lattice mismatch in epitaxial growth to impart an intrinsic tensile strain to a monocrystalline thin film (approximately 30 nm thick). These structures exhibit mechanical quality factors of 2*10^6 or beyond at room temperature and 17 K for eigenfrequencies up to 1 MHz, yielding Q*f products of 2*10^12 Hz for a tensile stress of ~170 MPa. Incorporating such membranes in a high finesse Fabry-Perot cavity, we extract an upper limit to the total optical loss (including both absorption and scatter) of 40 ppm at 1064 nm and room temperature. Further reductions of the In content of this alloy will enable tensile stress levels of 1 GPa, with the potential for a significant increase in the Q*f product, assuming no deterioration in the mechanical loss at this composition and strain level. This materials system is a promising candidate for the integration of strained semiconductor membrane structures with low-loss semiconductor mirrors and for realizing stacks of membranes for enhanced optomechanical coupling., Comment: 10 pages, 3 figures

Published
2014
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44. Observation of non-Markovian micro-mechanical Brownian motion

Author

Groeblacher, S., Trubarov, A., Prigge, N., Cole, G. D., Aspelmeyer, M., and Eisert, J.

Subjects
Quantum Physics, Condensed Matter - Statistical Mechanics
Abstract

All physical systems are to some extent open and interacting with their environment. This insight, basic as it may seem, gives rise to the necessity of protecting quantum systems from decoherence in quantum technologies and is at the heart of the emergence of classical properties in quantum physics. The precise decoherence mechanisms, however, are often unknown for a given system. In this work, we make use of an opto-mechanical resonator to obtain key information about spectral densities of its condensed-matter heat bath. In sharp contrast to what is commonly assumed in high-temperature quantum Brownian motion describing the dynamics of the mechanical degree of freedom, based on a statistical analysis of the emitted light, it is shown that this spectral density is highly non-Ohmic, reflected by non-Markovian dynamics, which we quantify. We conclude by elaborating on further applications of opto-mechanical systems in open system identification., Comment: 5+6 pages, 3 figures. Replaced by final version

Published
2013
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