Q 55: Optomechanics
Donnerstag, 5. März 2026, 14:30–16:30, P 2
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14:30 |
Q 55.1 |
Phase-adaptive cooling of fringe-trapped nanoparticles in hollow-core fiber — Soumya Chakraborty, •Gordon K. L. Wong, Pardeep Kumar, Hyunjun Nam, Claudiu Genes, and Nicolas Y. Joly
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14:45 |
Q 55.2 |
Dissipation dilution in 3D direct laser written mechanical resonators — •Daniel Stachanow, Lukas Tenbrake, Florian Giefer, Wolfgang Alt, Sebastian Hofferberth, and Hannes Pfeifer
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15:00 |
Q 55.3 |
Coherent scattering of an optically levitated nanoparticle to an ultrahigh-Q microtoroidal cavity — •Zijie Sheng, Seyed Khalil Alavi, Haneul Lee, Hansuek Lee, and Sungkun Hong
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15:15 |
Q 55.4 |
Amplification of optical forces via interference in levitated optomechanics — •Youssef Ezzo, Seyed Khalil Alavi, Ashik Pulikkathara, and Sungkun Hong
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15:30 |
Q 55.5 |
Release and recapture of millikelvin cooled levitated nanoparticles in microgravity conditions — •Govindarajan Prakash, Sven Herrmann, Ralf B. Bergmann, and Christian Vogt
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15:45 |
Q 55.6 |
Probing Quantum Mechanics with Nanorotors — Stephan Troyer, •Florian Fechtel, Henning Rudolph, Benjamin Stickler, Uroš Delić, and Markus Arndt
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16:00 |
Q 55.7 |
Tunable light induced dipole-dipole interactions — •Livia Egyed, Manual Reisenbauer, Henning Rudolph, Murad Abuzarli, Klaus Hornberger, Anton Zasedatelev, Benjamin Stickler, and Uros Delic
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16:15 |
Q 55.8 |
Entanglement of nanoparticles via Coulomb force under optimal control — •Nancy Gupta, Ayub Khodaee, Klemens Winkler, Kaspar Schmerling, Andreas Deutschmann-Olek, Nikolai Kiesel, Anton Zasedatelev, Uroš Delić, and Markus Aspelmeyer
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