Counting statistics for electron capture in a dynamic quantum dot

Lukas Fricke; Michael Wulf; Bernd Kaestner; Vyacheslavs Kashcheyevs; Janis Timoshenko; Pavel Nazarov; Frank Hohls; Philipp Mirovsky; Brigitte MacKrodt; Ralf Dolata; Thomas Weimann; Klaus Pierz; Hans W. Schumacher

doi:10.1103/PhysRevLett.110.126803

Counting statistics for electron capture in a dynamic quantum dot

Lukas Fricke^*
, Michael Wulf
, Bernd Kaestner
, Vyacheslavs Kashcheyevs
, Janis Timoshenko
, Pavel Nazarov
, Frank Hohls
, Philipp Mirovsky
, Brigitte MacKrodt
, Ralf Dolata
, Thomas Weimann
, Klaus Pierz
, Hans W. Schumacher

^*Šī darba korespondējošais autors

Eksakto zinātņu un tehnoloģiju fakultāte

Physikalisch-Technische Bundesanstalt
University of Latvia

Zinātniskās darbības rezultāts: Devums žurnālam › Zinātniskais raksts (žurnālā) › koleģiāli recenzēts

69 Atsauces (Scopus)

Kopsavilkums

We report noninvasive single-charge detection of the full probability distribution P_n of the initialization of a quantum dot with n electrons for rapid decoupling from an electron reservoir. We analyze the data in the context of a model for sequential tunneling pinch-off, which has generic solutions corresponding to two opposing mechanisms. One limit considers sequential "freeze-out" of an adiabatically evolving grand canonical distribution, the other one is an athermal limit equivalent to the solution of a generalized decay cascade model. We identify the athermal capturing mechanism in our sample, testifying to the high precision of our combined theoretical and experimental methods. The distinction between the capturing mechanisms allows us to derive efficient experimental strategies for improving the initialization.

Oriģinālvaloda	Angļu
Raksta numurs	126803
Žurnāls	Physical Review Letters
Sējums	110
Izdevuma numurs	12
DOIs	https://doi.org/10.1103/PhysRevLett.110.126803
Publikācijas statuss	Publicēts - 20 marts 2013

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AU - Fricke, Lukas

AU - Wulf, Michael

AU - Kaestner, Bernd

AU - Kashcheyevs, Vyacheslavs

AU - Timoshenko, Janis

AU - Nazarov, Pavel

AU - Hohls, Frank

AU - Mirovsky, Philipp

AU - MacKrodt, Brigitte

AU - Dolata, Ralf

AU - Weimann, Thomas

AU - Pierz, Klaus

AU - Schumacher, Hans W.

PY - 2013/3/20

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N2 - We report noninvasive single-charge detection of the full probability distribution Pn of the initialization of a quantum dot with n electrons for rapid decoupling from an electron reservoir. We analyze the data in the context of a model for sequential tunneling pinch-off, which has generic solutions corresponding to two opposing mechanisms. One limit considers sequential "freeze-out" of an adiabatically evolving grand canonical distribution, the other one is an athermal limit equivalent to the solution of a generalized decay cascade model. We identify the athermal capturing mechanism in our sample, testifying to the high precision of our combined theoretical and experimental methods. The distinction between the capturing mechanisms allows us to derive efficient experimental strategies for improving the initialization.

AB - We report noninvasive single-charge detection of the full probability distribution Pn of the initialization of a quantum dot with n electrons for rapid decoupling from an electron reservoir. We analyze the data in the context of a model for sequential tunneling pinch-off, which has generic solutions corresponding to two opposing mechanisms. One limit considers sequential "freeze-out" of an adiabatically evolving grand canonical distribution, the other one is an athermal limit equivalent to the solution of a generalized decay cascade model. We identify the athermal capturing mechanism in our sample, testifying to the high precision of our combined theoretical and experimental methods. The distinction between the capturing mechanisms allows us to derive efficient experimental strategies for improving the initialization.

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Counting statistics for electron capture in a dynamic quantum dot

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