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News 04.12.2018
New Publication: Proximity-induced spin-orbit coupling in graphene/Bi1.5Sb0.5Te1.7Se1.3 heterostructures

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04.12.2018

New Publication: Proximity-induced spin-orbit coupling in graphene/Bi1.5Sb0.5Te1.7Se1.3 heterostructures

Phys. Rev. B 98, 241402(R)(2018)
The weak intrinsic spin-orbit coupling in graphene can be greatly enhanced by proximity coupling. Here, we report on the proximity-induced spin-orbit coupling in graphene transferred by hexagonal boron nitride (hBN) onto the topological insulator Bi1.5Sb0.5Te1.7Se1.3(BSTS) which was grown on a hBN substrate by vapor solid synthesis. Phase coherent transport measurements, revealing weak localization, allow us to extract the carrier density-dependent phase coherence length lφ. While lφ increases with increasing carrier density in the hBN/graphene/hBN reference sample, it decreases in graphene/BSTS due to the proximity coupling of BSTS to graphene. The latter behavior results from D'yakonov-Perel'-type spin scattering in graphene with a large proximity-induced spin-orbit coupling strength of at least 2.5 meV.

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02.12.2018

New publication: Zitterbewegung of Spin Split Electrons

JETP Lett. 108, 326(2018)
We describe the trembling motion of conduction-band electrons in solids. The effect originates from the fact that, in the presence of the Rashba/Dresselhaus spin–orbit coupling and the Zeeman splitting, the electron velocity is not a conserved quantity and contains a contribution oscillating at the frequency determined by the spin gap. The phenomenon is similar to the Zitterwebegung of relativistic particles. Trembling motion of individual electrons can be phase-synchronized by initializing the electrons in the same spin states and detected as a macroscopic high-frequency electric current, which is maintained in the system until the electron spin coherence is lost. We also show that the amplitude of such a coherent Zitterbewegung current is increased when its frequency matches the plasmon frequency.

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01.12.2018

New member of the board of trustees of the "Physik Journal"

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Christoph Stampfer was elected as member of the board of trustees of the "Physik Journal" for the period 2019-2024.

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07.11.2018

New publication including cover page: Smart Experiments

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Lehre: Smarte Experimente - Physik Journal 11, 35 (2018)
In den Vorlesungen zur Experimentalphysik lassen sich Smartphones sinnvoll einsetzen. In den meisten Physikstudiengängen bildet die Vorlesung zur Experimentalphysik die zentrale Einführung. Dabei stellen Studierende jedoch schnell fest, dass das „Experiment“ im Titel der Veranstaltung lediglich Demonstrationsversuchen geschuldet ist, sie aber nicht selbst experimentieren dürfen. Da es unmöglich ist, alle Studierenden mit Messgeräten auszustatten, schauen sie den Vorführungen passiv zu und bekommen erst in den physikalischen Praktika die Möglichkeit, selbst Versuche durchzuführen. Die eigenständige Experimentiererfahrung wird losgelöst vom Vorlesungsstoff gesammelt.

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05.11.2018

PHYPHOX reached 500.000 installs!

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A little more than two years after our first public release (12th September 2016), we have surpassed half a million installs. Thanks to all of you, who supported us, gave feedback or just told others about phyphox.

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26.10.2018

Race report Köln Marathon 2018

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Our institute participated successfully at the "RheinEnergie Marathon" in Köln. Along with 27,000 other athletes, Markus (1:43:41), Alex (1:50:19) and Benedikt (1:51:40) completed the Half Marathon course while Michael ran the full Marathon in 3:04:34. Congratulations!

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22.10.2018

“Völser Zeitung” - Interview

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Interview of Christoph Stampfer in the “Völser Zeitung” from South Tyrol, Italy (unfortunately only in German). More information can be found here.

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01.10.2018

New publication: Ultra-long wavelength Dirac plasmons in graphene capacitors

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J. Phys. Mater. 1, 01LT02 (2018)
Graphene is a valuable 2D platform for plasmonics as illustrated in recent THz and mid-infrared optics experiments. These high-energy plasmons however, couple to the dielectric surface modes giving rise to hybrid plasmon-polariton excitations. Ultra-long wavelengths address the low energy end of the plasmon spectrum, in the GHz–THz electronic domain, where intrinsic graphene Dirac plasmons are essentially decoupled from their environment. However experiments are elusive due to the damping by ohmic losses at low frequencies. We demonstrate here a plasma resonance capacitor (PRC) using hexagonal boron-nitride (hBN) encapsulated graphene at cryogenic temperatures in the near-ballistic regime. We report on a 100 μm quarter-wave plasmon mode, at 40 GHz, with a quality factor Q≅2. The accuracy of the resonant technique yields a precise determination of the electronic compressibility and kinetic inductance, allowing to assess residual deviations from intrinsic Dirac plasmonics. Our GHz frequency capacitor experiment constitutes a first step towards the demonstration of plasma resonance transistors for microwave detection in the sub-THz domain for wireless communication and sensing. It also paves the way to the realization of doping-modulated superlattices where plasmon propagation is controlled by Klein tunneling.

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