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Loss's research interests include many aspects of the theory of condensed matter systems with a particular focus on spin-dependent and phase-coherent phenomena ("mesoscopics") in semiconducting nanostructures and molecular magnets. A major portion of Loss's current research involves the theory of spin dynamics, spin coherence, spintronics in two-dimensional electron gases, and spin-related phenomena in semiconducting quantum dots--artificial atoms and molecules. Part of this work is related to quantum information processing (QIP)--quantum computing and quantum communication in solid state systems with focus on spin qubits, where Loss and collaborators made seminal contributions. Their theoretical predictions and proposals have stimulated many further investigations, and in particular many experimental programs on spin qubits worldwide. Current research includes spin relaxation and decoherence in quantum dots due to spin-orbit and hyperfine interaction; non-Markovian spin dynamics in bosonic and nuclear spin environments; generation and characterization of non-local entanglement with quantum dots, superconductors, Luttinger liquids or Coulomb scattering in interacting 2DEGs; spin currents in magnetic insulators and in semiconductors; spin Hall effect in disordered systems; spin orbit effects in transport and noise; asymmetric quantum shot noise in quantum dots; entanglement transfer from electron spins to photons; QIP with spin qubits in quantum dots and molecular magnets; macroscopic quantum phenomena (spin tunneling and coherence) in molecular and nanoscale magnetism.
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论文共 715 篇作者统计合作学者相似作者
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Physical review lettersno. 3 (2024): 036701-036701
Nature Physicspp.1-6, (2024)
arxiv(2024)
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Miguel J. Carballido,Simon Svab,Rafael S. Eggli, Taras Patlatiuk, Pierre Chevalier Kwon,Jonas Schuff, Rahel M. Kaiser,Leon C. Camenzind,Ang Li,Natalia Ares, Erik P. A. M Bakkers,Stefano Bosco,
arxiv(2024)
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Physical review lettersno. 9 (2024): 099602-099602
arxiv(2024)
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NPJ quantum informationno. 1 (2024): 46-46
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