Rupert Huber (physicist)
Rupert Huber (born 1973 in Traunstein ) is a German physicist and university professor. He deals with elementary dynamics on the shortest length and time scales.
Life
Rupert Huber studied at the Technical University of Munich and in Berkeley and received his doctorate in 2003 from the Physics Department of the Technical University of Munich. From 2004 to 2006 he was a Feodor Lynen Fellow of the Alexander von Humboldt Foundation. He spent research stays at Hong Kong Baptist University , the University of California, Berkeley , and the Lawrence Berkeley National Laboratory . From 2007 to 2010 he headed a junior research group at the University of Konstanz , funded by the Emmy Noether Program of the German Research Foundation . Since 2010 he has been a professor at the Institute for Experimental and Applied Physics at the University of Regensburg .
His research on terahertz physics at the interface between optics and electronics is particularly well known . In the context of so-called light wave electronics, his group uses the carrier field of light as an ultra-fast electrical bias. For the first time, he was able to resolve important quantum dynamics such as Bloch oscillations in volume semiconductors, quasiparticle collisions or high harmonic generation on the sub-cycle time scale. He also deals with ultra-fast nanoscopy. In close cooperation, the working groups of Rupert Huber and Jascha Repp (also University of Regensburg) were able to show a lightwave scanning tunneling microscope in 2016, with which the movement of a single molecule can be resolved directly in place and time for the first time.
Awards
- 2004: Feodor Lynen Research Fellowship from the Alexander von Humboldt Foundation
- 2007: Emmy-Noether grant and DFG junior research group
- 2008: European THz Young Investigator Award from the European Optical Society
- 2009: Rudolf Kaiser Prize of the Donors' Association for German Science
- 2012: ERC Starting Grant (European Research Council)
- Since 2012: 12 x prize for good teaching from the Faculty of Physics at the UR
- 2016: Prize for good teaching at the state universities in Bavaria
- 2019: Leibniz Prize of the German Research Foundation
- 2019: Appointment as Fellow of the Optical Society of America (OSA)
Fonts (selection)
- P. Merkl et al., Nature Materials 18 , 691 (2019)
- S. Schlauderer et al., Nature 569 , 383 (2019)
- J. Reimann et al., Nature 562 , 396 (2018)
- F. Langer et al., Nature 557 , 76 (2018)
- F. Langer et al., Nature Photonics 11 , 227 (2017)
- MA Huber et al., Nature Nanotechnology 12 , 207 (2017)
- TL Cocker et al., Nature 539 , 263 (2016)
- S. Baierl et al., Nature Photonics 10 , 715 (2016)
- F. Langer et al., Nature 533 , 225 (2016)
- T. Maag et al., Nature Physics 12 , 119 (2016)
- C. Poellmann et al., Nature Materials 14 , 889 (2015)
- M. Hohenleutner et al., Nature 523 , 572 (2015)
- M. Eisele et al., Nature Photonics 8 , 841 (2014)
- J.-M. Ménard et al., Nature Communications 5 , 4648 (2014)
- M. Porer et al. , Nature Materials 13 , 857 (2014)
- O. Schubert et al. , Nature Photonics 8 , 119 (2014)
- KW Kim et al., Nature Materials 11 , 497 (2012)
- T. Kampfrath et al., Nature Photonics 5 , 31 (2011)
- G. Krauss et al., Nature Photonics 4 , 33 (2010)
- G. Günter et al., Nature 458 , 178 (2009)
Web links
- Publications / profile at the University of Regensburg
- Scanning tunneling microscope films fast molecule movements , FAZ from November 22, 2016, accessed December 6, 2018
- Citationsindex for Rupert Huber, University of Regensburg according to scholar.google.de, accessed December 12, 2018
supporting documents
- ↑ a b Leibniz Prize: On ultrafast phenomena and nanomagnetism. Retrieved January 7, 2019 .
- ↑ a b Chair Huber. Retrieved January 17, 2019 .
- ↑ Humboldtians receive Leibniz Prizes. Retrieved January 17, 2019 .
- ↑ Rupert Huber's curriculum vitae (DPG). (PDF) Retrieved January 17, 2019 .
- ↑ DFG - German Research Foundation - Prof. Dr. Rupert Huber - Gottfried Wilhelm Leibniz Prize Winner 2019. Accessed January 17, 2019 .
- ↑ Deutsche forschungsgemeinschaft: Award winners 2019. Accessed on January 17, 2019 .
- ^ A b Alexander Schlaak: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ A b c Cordula Böll: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ Margit Scheid: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ Alexander Schlaak: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ A b Claudia Kulke: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ Margit Adler: News report - University of Regensburg. Retrieved January 17, 2019 .
- ^ Claudia Kulke: News report - University of Regensburg. Retrieved January 17, 2019 .
- ↑ Lightning-fast slow-motion microscope tracks the movement of a single molecule. Retrieved January 17, 2019 .
- ↑ Manfred Lindinger: Supermicroscope : Seeing chemistry in slow motion . ISSN 0174-4909 ( faz.net [accessed January 17, 2019]).
- ↑ News report - University of Regensburg. Retrieved January 17, 2019 .
- ↑ News report - University of Regensburg. Retrieved January 17, 2019 .
- ↑ Science Minister Spaenle awards prizes for good teaching to 15 academics from Bavarian universities | Bavarian state portal. Retrieved January 17, 2019 .
- ↑ OSA Fellow Members 2019. Accessed January 17, 2019 .
- ↑ P. Merkl, F. Mooshammer, P. Steinleitner, A. Girnghuber, K.-Q. Lin: Ultrafast transition between exciton phases in van der Waals heterostructures . In: Nature Materials . tape 18 , no. 7 , July 2019, ISSN 1476-4660 , p. 691–696 , doi : 10.1038 / s41563-019-0337-0 ( nature.com [accessed October 1, 2019]).
- ^ S. Schlauderer, C. Lange, S. Baierl, T. Ebnet, CP Schmid: Temporal and spectral fingerprints of ultrafast all-coherent spin switching . In: Nature . tape 569 , no. 7756 , May 2019, ISSN 1476-4687 , p. 383–387 , doi : 10.1038 / s41586-019-1174-7 ( nature.com [accessed October 1, 2019]).
- ^ R. Huber, U. Höfer, J. Güdde, C. Lange, A. Kimura: Subcycle observation of lightwave-driven Dirac currents in a topological surface band . In: Nature . tape 562 , no. 7727 , October 2018, ISSN 1476-4687 , p. 396–400 , doi : 10.1038 / s41586-018-0544-x ( nature.com [accessed March 4, 2019]).
- ^ R. Huber, M. Kira, SW Koch, U. Huttner, JT Steiner: Lightwave valleytronics in a monolayer of tungsten diselenide . In: Nature . tape 557 , no. 7703 , May 2018, ISSN 1476-4687 , p. 76-80 , doi : 10.1038 / s41586-018-0013-6 , PMID 29720633 , PMC 6205603 (free full text).
- ↑ F. Langer, M. Hohenleutner, U. Huttner, SW Koch, M. Kira: Symmetry-controlled temporal structure of high-harmonic carrier fields from a bulk crystal . In: Nature Photonics . tape 11 , no. 4 , March 13, 2017, ISSN 1749-4885 , p. 227–231 , doi : 10.1038 / nphoton.2017.29 ( nature.com [accessed March 4, 2019]).
- ^ Rupert Huber, Tyler L. Cocker, Miriam S. Vitiello, Jaroslav Fabian, Tobias Frank: Femtosecond photo-switching of interface polaritons in black phosphorus heterostructures . In: Nature Nanotechnology . tape 12 , no. 3 , March 2017, ISSN 1748-3395 , p. 207–211 , doi : 10.1038 / nnano.2016.261 ( nature.com [accessed March 4, 2019]).
- ^ Rupert Huber, Jascha Repp, Ping Yu, Dominik Peller, Tyler L. Cocker: Tracking the ultrafast motion of a single molecule by femtosecond orbital imaging . In: Nature . tape 539 , no. 7628 , November 2016, ISSN 1476-4687 , p. 263–267 , doi : 10.1038 / nature19816 , PMID 27830788 , PMC 5597038 (free full text).
- ^ RV Mikhaylovskiy, R. Huber, AV Kimel, AK Zvezdin, T. Kampfrath: Nonlinear spin control by terahertz-driven anisotropy fields . In: Nature Photonics . tape 10 , no. November 11 , 2016, ISSN 1749-4893 , p. 715–718 , doi : 10.1038 / nphoton.2016.181 ( nature.com [accessed March 4, 2019]).
- ^ R. Huber, M. Kira, SW Koch, JT Steiner, U. Huttner: Lightwave-driven quasiparticle collisions on a subcycle timescale . In: Nature . tape 533 , no. 7602 , May 2016, ISSN 1476-4687 , p. 225–229 , doi : 10.1038 / nature17958 , PMID 27172045 , PMC 5034899 (free full text).
- ↑ M. Kira, SW Koch, JE Sipe, M. Mootz, R. Huber: Coherent cyclotron motion beyond Kohn's theorem . In: Nature Physics . tape 12 , no. 2 , February 2016, ISSN 1745-2481 , p. 119–123 , doi : 10.1038 / nphys3559 ( nature.com [accessed March 4, 2019]).
- ↑ R. Huber, T. Korn, C. Schüller, R. Bratschitsch, M. Porer: Resonant internal quantum transitions and femtosecond radiative decay of excitons in monolayer WSe2 . In: Nature Materials . tape 14 , no. 9 , September 2015, ISSN 1476-4660 , p. 889–893 , doi : 10.1038 / nmat4356 ( nature.com [accessed March 4, 2019]).
- ↑ R. Huber, M. Kira, SW Koch, U. Huttner, M. Knorr: Real-time observation of interfering crystal electrons in high-harmonic generation . In: Nature . tape 523 , no. 7562 , July 2015, ISSN 1476-4687 , p. 572-575 , doi : 10.1038 / nature14652 ( nature.com [accessed January 22, 2019]).
- ^ R. Huber, MS Vitiello, L. Sorba, D. Ercolani, L. Viti: Ultrafast multi-terahertz nano-spectroscopy with sub-cycle temporal resolution . In: Nature Photonics . tape 8 , no. November 11 , 2014, ISSN 1749-4893 , p. 841–845 , doi : 10.1038 / nphoton.2014.225 ( nature.com [accessed January 22, 2019]).
- ^ R. Huber, J. Bloch, A. Amo, A. Lemaître, E. Galopin: Revealing the dark side of a bright exciton-polariton condensate . In: Nature Communications . tape 5 , August 13, 2014, ISSN 2041-1723 , p. 4648 , doi : 10.1038 / ncomms5648 ( nature.com [accessed January 22, 2019]).
- ^ R. Huber, K. Rossnagel, J. Demsar, U. Heinzmann, IE Perakis: Non-thermal separation of electronic and structural orders in a persisting charge density wave . In: Nature Materials . tape 13 , no. 9 , September 2014, ISSN 1476-4660 , p. 857–861 , doi : 10.1038 / nmat4042 ( nature.com [accessed January 22, 2019]).
- ^ R. Huber, SW Koch, M. Kira, T. Meier, D. Golde: Sub-cycle control of terahertz high-harmonic generation by dynamical Bloch oscillations . In: Nature Photonics . tape 8 , no. 2 , February 2014, ISSN 1749-4893 , p. 119–123 , doi : 10.1038 / nphoton.2013.349 ( nature.com [accessed January 22, 2019]).
- ↑ A. Leitenstorfer, R. Huber, J. Demsar, C. Bernhard, T. Wolf: Ultrafast transient generation of spin-density-wave order in the normal state of BaFe2As2 driven by coherent lattice vibrations . In: Nature Materials . tape 11 , no. 6 , June 2012, ISSN 1476-4660 , p. 497–501 , doi : 10.1038 / nmat3294 ( nature.com [accessed January 22, 2019]).
- ↑ Rupert Huber, Alfred Leitenstorfer, Manfred Fiebig, Martin Wolf, Thomas Dekorsy: Coherent terahertz control of antiferromagnetic spin waves . In: Nature Photonics . tape 5 , no. 1 , January 2011, ISSN 1749-4893 , p. 31–34 , doi : 10.1038 / nphoton.2010.259 ( nature.com [accessed January 22, 2019]).
- ↑ Alfred Leitenstorfer, Rupert Huber, Stefan Eggert, Alexander Sell, Tobias Hanke: Synthesis of a single cycle of light with compact erbium-doped fiber technology . In: Nature Photonics . tape 4 , no. 1 , January 2010, ISSN 1749-4893 , p. 33–36 , doi : 10.1038 / nphoton.2009.258 ( nature.com [accessed January 22, 2019]).
- ^ R. Huber, A. Leitenstorfer, A. Tredicucci, C. Ciuti, S. De Liberato: Sub-cycle switch-on of ultrastrong light-matter interaction . In: Nature . tape 458 , no. 7235 , March 2009, ISSN 1476-4687 , p. 178–181 , doi : 10.1038 / nature07838 ( nature.com [accessed January 22, 2019]).
personal data | |
---|---|
SURNAME | Huber, Rupert |
BRIEF DESCRIPTION | German physicist and university professor |
DATE OF BIRTH | 1973 |
PLACE OF BIRTH | Traunstein |