David Grass
Zitiert von
Zitiert von
Cooling of a levitated nanoparticle to the motional quantum ground state
U Delić, M Reisenbauer, K Dare, D Grass, V Vuletić, N Kiesel, ...
Science 367 (6480), 892-895, 2020
Cavity cooling of an optically levitated submicron particle
N Kiesel, F Blaser, U Delić, D Grass, R Kaltenbaek, M Aspelmeyer
Proceedings of the National Academy of Sciences 110 (35), 14180-14185, 2013
Low-cost measurement of face mask efficacy for filtering expelled droplets during speech
EP Fischer, MC Fischer, D Grass, I Henrion, WS Warren, E Westman
Science Advances 6 (36), eabd3083, 2020
Cavity cooling of a levitated nanosphere by coherent scattering
U Delić, M Reisenbauer, D Grass, N Kiesel, V Vuletić, M Aspelmeyer
Physical review letters 122 (12), 123602, 2019
Optical trapping and control of nanoparticles inside evacuated hollow core photonic crystal fibers
D Grass, J Fesel, SG Hofer, N Kiesel, M Aspelmeyer
Applied Physics Letters 108 (22), 2016
Near-field coupling of a levitated nanoparticle to a photonic crystal cavity
L Magrini, RA Norte, R Riedinger, I Marinković, D Grass, U Delić, ...
Optica 5 (12), 1597-1602, 2018
Levitated cavity optomechanics in high vacuum
U Delić, D Grass, M Reisenbauer, T Damm, M Weitz, N Kiesel, ...
Quantum Science and Technology 5 (2), 025006, 2020
Thermodynamics of continuous non-Markovian feedback control
M Debiossac, D Grass, JJ Alonso, E Lutz, N Kiesel
Nature communications 11 (1), 1360, 2020
Nonequilibrium control of thermal and mechanical changes in a levitated system
M Rademacher, M Konopik, M Debiossac, D Grass, E Lutz, N Kiesel
Physical Review Letters 128 (7), 070601, 2022
Optical trapping and transport of nanoparticles with hollow core photonic crystal fibers
D Grass
Masters thesis. University of Vienna, 2013
Beyond intensity modulation: new approaches to pump-probe microscopy
J Jiang, D Grass, Y Zhou, WS Warren, MC Fischer
Optics Letters 46 (6), 1474-1477, 2021
Contrast mechanisms in pump-probe microscopy of melanin
D Grass, GM Beasley, MC Fischer, MA Selim, Y Zhou, WS Warren
Optics Express 30 (18), 31852-31862, 2022
Levitated optomechanics in vacuum using hollow core photonic crystal fibers and optical cavities
D Grass
University of Vienna, 2018
Non-destructive three-dimensional imaging of artificially degraded CdS paints by pump-probe microscopy
Y Zhou, D Grass, WS Warren, MC Fischer
Journal of Physics: Photonics 6 (2), 025013, 2024
A new biomarker for metastatic melanoma based on femtosecond pump-probe microscopy and supervised learning
D Grass, AM Selim, GM Beasley, MC Fischer, WS Warren
Photonics in Dermatology and Plastic Surgery 2024, PC128160K, 2024
Noninvasive identification of carbon-based black pigments with pump-probe microscopy
HV Kastenholz, MI Topper, WS Warren, MC Fischer, D Grass
arXiv preprint arXiv:2403.08897, 2024
Identifying metastatic melanoma with pump-probe microscopy of melanin
D Grass
Advanced Chemical Microscopy for Life Science and Translational Medicine …, 2024
Prospects of pump-probe microscopy for revealing pigment identity and degradation
MC Fischer, Y Zhou, H Kastenholz, M Topper, D Grass, W Warren
Optics for Arts, Architecture, and Archaeology (O3A) IX, PC1262001, 2023
Nonlinear Pump-Probe Microscopy Improves Early Detection of Metastatic Melanoma
W Warren, D Grass, M Fischer
Bulletin of the American Physical Society 65, 2020
Near-field levitated optomechanics with a photonic crystal cavity
S Hong, L Magrini, R Norte, R Riedinger, I Marinković, D Grass, U Delic, ...
APS March Meeting Abstracts 2019, V24. 004, 2019
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