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Theoretical Optics & Photonics
Institut für Physik - Humboldt-Universität zu Berlin and Max-Born-Institut
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Francesco Intravaia
Francesco Intravaia
Dr. Francesco Intravaia
Post Doc
3'312
+49 [30] 2093 - 82457
+49 [30] 2093 - 82451
francesco.intravaia@physik.hu-berlin.de
Humboldt-University - Institute for Physics - TOP
Lise-Meitner-Haus
Newtonstrasse 15
12489
Berlin
Germany
Periodic Photonic Nanostructures
Plasmonics
Quantum Photonics
Fluctuation-Induced Phenomena
Publications
Publications
In der Unruhe liegt die Kraft
F. Intravaia, D. Reiche, und K. Busch (2022)
Physik Journal 21:35
Wading through the void: Exploring quantum friction and nonequilibrium fluctuations
D. Reiche, F. Intravaia, and K. Busch (2022)
APL Photonics 7:030902
Nonequilibrium thermodynamics of quantum friction
D. Reiche, F. Intravaia, J.-T. Hsiang, K. Busch, and B.L. Hu (2020)
Physical Review A (rapid) 102:050203
Modeling electromagnetic resonators using quasinormal modes
P.T. Kristensen, K. Herrmann, F. Intravaia, and K. Busch (2020)
Advances in Opics and Photonics 12:612
Nonadditive Enhancement of Nonequilibrium Atom-Surface Interactions
D. Reiche, K. Busch, and F. Intravaia (2020)
Physical Review Letters 124:193603
Quantum thermodynamics of overdamped modes in local and spatially dispersive materials
D. Reiche, K. Busch, and F. Intravaia (2020)
Physical Review A 101:012506
Polaritonic contribution to the Casimir energy between two graphene layers
C. H. Egerland, K. Busch, and F. Intravaia (2019)
Physical Review B 100:235418
Quantum Rolling Friction
F. Intravaia, M. Oelschläger, D. Reiche, D. A. R. Dalvit, and K. Busch (2019)
Physical Review Letters 123:120401
Extended hydrodynamic description for nonequilibrium atom-surface interactions
D. Reiche, M. Oelschläger, K. Busch, and F. Intravaia (2019)
Journal of the Optical Society of America B 36:C52
Nonequilibrium atom-surface interaction with lossy multilayer structures
M. Oelschläger, K. Busch, and F. Intravaia (2018)
Physical Review A 97:062507
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People
Current teaching
Computational Photonics
Fluctuation-induced Phenomena
Newest publications
Branching High-Order Exceptional Points in Non-Hermitian Optical Systems
Linear response theory of open systems with exceptional points
Quantum-inspired multicore optical fiber
In der Unruhe liegt die Kraft
Nanostructured In3SbTe2 antennas enable switching from sharp dielectric to broad plasmonic...
Theoretical Optics & Photonics
Department of Physics - HU zu Berlin
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