Add to ORKGIn this study, we propose the concept of harnessing quantum coherence to control electron transport in a many-body system. Combining an open quantum system technique based on Hubbard operators, we show that many-body coherence can eliminate the well-known Coulomb staircase and cause strong negative differential resistance. To explore the mechanism, we analytically derive the current-coherence relationship in the zero electron-phonon coupling limit. Furthermore, by incorporating a gate field, we demonstrate the possibility of constructing a coherence-controlled transistor. This development opens up a new direction for exploring quantum electronic devices based on many-body coherence.Comment: 15 pages, 5 figure
We discuss the effects of many-body coherence on the speed of evolution of ultracold atomic gases an...
The possibility to exploit quantum coherence to strongly enhance the efficiency of charge transport ...
Motivated by realization of the dissipative quantum point contact in ultracold atomic gases, we inve...
In this study, we propose the concept of harnessing quantum coherence to control electron transport ...
Theoretical and experimental values to date for the resistances of single molecules commonly disagre...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2006.Vita.Includes bibli...
A quantum master equation (QME) is derived for the many-body density matrix of an open current-carry...
Understanding the pathways taken by a quantum particle during a transport process is an enormous cha...
Electronic transport in low temperature and low scale solid-state devices is governed by the laws of...
A generalized collision model is developed to investigate coherent charging a single quantum battery...
Over the last few years, extensive experimental efforts have been devoted to thedevelopment of quant...
We study the behavior of a single electron transistor (SET) represented by a dissipative tunnel junc...
Recently, the electron transport through a quasi-one dimensional (quasi-1D) electron gas was investi...
An ab initio based theoretical approach to describe nonequilibrium many-body effects in molecular tr...
Quantum coherence will undoubtedly play a fundamental role in understanding of the dynamics of quant...
We discuss the effects of many-body coherence on the speed of evolution of ultracold atomic gases an...
The possibility to exploit quantum coherence to strongly enhance the efficiency of charge transport ...
Motivated by realization of the dissipative quantum point contact in ultracold atomic gases, we inve...
In this study, we propose the concept of harnessing quantum coherence to control electron transport ...
Theoretical and experimental values to date for the resistances of single molecules commonly disagre...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2006.Vita.Includes bibli...
A quantum master equation (QME) is derived for the many-body density matrix of an open current-carry...
Understanding the pathways taken by a quantum particle during a transport process is an enormous cha...
Electronic transport in low temperature and low scale solid-state devices is governed by the laws of...
A generalized collision model is developed to investigate coherent charging a single quantum battery...
Over the last few years, extensive experimental efforts have been devoted to thedevelopment of quant...
We study the behavior of a single electron transistor (SET) represented by a dissipative tunnel junc...
Recently, the electron transport through a quasi-one dimensional (quasi-1D) electron gas was investi...
An ab initio based theoretical approach to describe nonequilibrium many-body effects in molecular tr...
Quantum coherence will undoubtedly play a fundamental role in understanding of the dynamics of quant...
We discuss the effects of many-body coherence on the speed of evolution of ultracold atomic gases an...
The possibility to exploit quantum coherence to strongly enhance the efficiency of charge transport ...
Motivated by realization of the dissipative quantum point contact in ultracold atomic gases, we inve...
