zukünftige seminare


Sekretariat: Kristina Schuldt
Telefon:      +49 89 3 29 05 - 138

Sekretariat: Andrea Kluth
Telefon:      +49 89 3 29 05 - 736

Sekretariat: Ingrid Hermann
Telefon:      +49 89 3 29 05 - 712

Sekretariat: Corin Abert
Telefon:      +49 89 3 29 05 - 612

Sekretariat: Iris Schwaiger
Telefon:      +49 89 3 29 05 - 711

Seminare 2016

Seminare 2015



In unregelmäßigen Abständen finden am MPQ Seminare statt. Diese werden von den Wissenschaftlern der einzelnen Abteilungen organisiert.

Der Veranstaltungsort wird mit dem jeweiligen Seminar bekannt gegeben.


Two pulses waltzing in a laser cavity: exploiting the fs laser as the ultimate sensor (Prof. J.-C. Diels)

The active laser cavity can be considerably more sensitive than a passive one to minute perturbations. The difference in sensitivity between passive and active resonator sensors is akin to forensic dissection as compared to vivisection. [mehr]

Long-range entanglement generation between spatially separated electronic spins (M. Benito)

“We propose to use Quantum Hall edge channels in order to generate long-range entanglement between spatially separated spin qubits. Since the entanglement is actively stabilized by purely dissipative dynamics, our scheme is inherently robust against noise and imperfections.” [mehr]

Route to “TeV on a chip” and to Zeptoscience (Prof. T. Tajima)

A new frontier of extreme light at Exawatt level is discussed. This frontier has approached to us much closer than we thought till only recently. [mehr]

Entanglement generation in 3-mode optomechanical systems (Prof. Dr. Yingdan Wang)

A 3-mode optomechanical system (e.g., with two electromagnetic fields coupled to a single mode of a mechanical resonator) is a key element of hybrid quantum systems. [mehr]

Transport signatures of long-range nuclear-spin coherence in a quantum-dot spin valve (Prof. S. Chesi)

Several types of quantum-dot spin valves were recently realized. For such systems, we have analyzed the efficient transfer of angular momentum into the nuclear bath and the detection of nuclear-spin coherence through transport signatures. [mehr]

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