Dissipationless Quantum Spin Current at Room Temperature

Dissipationless Quantum Spin Current at Room Temperature

Although microscopic laws of physics are invariant under the reversal of the arrow of time, the transport of energy and information in most devices is an irreversible process. It is this irreversibility that leads to intrinsic dissipations in electronic devices and limits the possibility of quantum...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2003-09, Vol.301 (5638), p.1348-1351
Hauptverfasser: Murakami, Shuichi, Nagaosa, Naoto, Zhang, Shou-Cheng
Format: Artikel
Sprache:eng
Schlagworte:
Classical and quantum physics: mechanics and fields
Climate
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Conductivity
Electric current
Electric fields
Electromagnetism
Electronic transport in condensed matter
Electrons
Exact sciences and technology
Information Processing
Ions
Kinetics
Lead
Momentum
Physics
Quantum electronics
Quantum information
Quantum Mechanics
Quantum theory
Room temperature
Semiconductors
Spin polarized transport
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Zusammenfassung:Although microscopic laws of physics are invariant under the reversal of the arrow of time, the transport of energy and information in most devices is an irreversible process. It is this irreversibility that leads to intrinsic dissipations in electronic devices and limits the possibility of quantum computation. We theoretically predict that the electric field can induce a substantial amount of dissipationless quantum spin current at room temperature, in hole-doped semiconductors such as Si, Ge, and GaAs. On the basis of a generalization of the quantum Hall effect, the predicted effect leads to efficient spin injection without the need for metallic ferromagnets. Principles found here could enable quantum spintronic devices with integrated information processing and storage units, operating with low power consumption and performing reversible quantum computation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1087128