QICS Category: 00. QUANTUM INFORMATION SCIENCE

{|border="0" cellpadding="5" cellspacing="0" | | |- | colspan=2|'''01. Physics and information science''' |- | | |- |'''01.10.+i''' |'''Encoding, processing and transmission of information via physical systems''' |- |'''01.20.+e''' |'''Reversibility and irreversibility in information processing''' |- |'''01.30.+r''' |'''Quantum states and dynamics as a resource for information processing''' |- |'''01.40.+n''' |'''Entanglement as a resource for information processing''' |- |'''01.50.+e''' |'''Entropy and other measures of information''' |- | | |- | colspan=2|'''02. Fundamental problems''' |- | | |- |'''02.10.+t''' |'''Quantum-Classical Transition''' |- |'''02.20.+c''' |'''Mesoscopic and Macroscopic Quantum Coherence''' |- |'''02.30.-n''' |'''Entanglement and Nonlocality''' |- |02.30.Bi |Inequalities for nonlocality tests |- |02.30.An |All-versus-nothing inequality tests |- |02.30.Lh |Loopholes in nonlocality tests |- |'''02.40.+d''' |'''Interaction with environment and decoherence''' |- |'''02.50.+r''' |'''Reference frames in quantum mechanics''' |- |'''02.60.+g''' |'''Geometric/topological phases''' |- |'''02.70.+a''' |'''Alternative theories to quantum mechanics''' |- |'''02.80.+i''' |'''Fundamentals of quantum interference (quantum eraser, which-way information, etc.)''' |- |'''02.90.+f''' |'''Fundational issues of quantum mechanics''' |- | | |- | colspan=2|'''03. Entanglement''' |- | | |- |'''03.02.+s''' |'''Separability properties''' |- |'''03.05.+c''' |'''Characterization and classification of entanglement''' |- |'''03.10.+m''' |'''Entanglement measures''' |- |'''03.20.+w''' |'''Entanglement detection/witnesses''' |- |'''03.25.+y''' |'''Entanglement catalysts''' |- |'''03.30.+e''' |'''Entangling power of quantum evolutions''' |- |'''03.40.+t''' |'''Thermal/mixed state entanglement''' |- |'''03.50.+b''' |'''Bound entanglement''' |- |'''03.60.+i''' |'''Entanglement of identical particles and statistics''' |- |'''03.70.+c''' |'''Entanglement versus correlation''' |- |'''03.80.+p''' |'''(Theory of) purification, distillation, concentration''' |- |'''03.90.+m''' |'''(Other) mathematical aspects of composite quantum systems''' |- | | |- | colspan=2|'''04. Entanglement in Many-Body Systems''' |- | | |- |'''04.10.+s''' |'''Entanglement in spin models''' |- |'''04.20.+b''' |'''Squeezing and entanglement in BEC''' |- |'''04.25.+i''' |'''Entanglement in solid state systems, Luttinger liquids, etc.''' |- |'''04.30.+p''' |'''Entanglement in phase transitions''' |- |'''04.40.+c''' |'''Entanglement, chaos and disorder''' |- |'''04.50.+m''' |'''Efficient simulation of quantum many body systems''' |- |'''04.60.+s''' |'''Stability of macroscopic entanglement''' |- |'''04.70.+m''' |'''Multi-particle/multi-photon entanglement''' |- |'''04.80.+d''' |'''Entanglement dynamics in composite quantum systems''' |- |'''04.90.+t''' |'''Entanglement transfer''' |- | | |- | colspan=2|'''05. Cross Disciplinary Links''' |- | | |- |'''05.05.+r''' |'''Quantum information & relativity/cosmology''' |- |'''05.10.+s''' |'''Quantum information & quantum statistics''' |- |'''05.20.+c''' |'''Quantum information & quantum chaos''' |- |'''05.30.+t''' |'''Quantum information & thermodynamics''' |- |'''05.40.+n''' |'''Quantum information & neural networks''' |- |'''05.50.+a''' |'''Quantum information & adaptive learning and feedback control''' |- |'''05.60.+c''' |'''Quantum information & chemistry''' |- |'''05.70.+o''' |'''Quantum information & quantum control''' |- |'''05.80.+m''' |'''Quantum information & complex systems''' |- |'''05.90.+p''' |'''Quantum information & quantum field theory/particle physics''' |- | | |- | colspan=2|'''06. Quantum measurements''' |- | | |- |'''06.10.+d''' |'''Dynamics of the measurement process''' |- |'''06.15.+e''' |'''Measurement-induced transformation''' |- |'''06.20.+m''' |'''Quantum measurement theories''' |- |'''06.25.+n''' |'''Quantum non-demolition measurements''' |- |'''06.30.+p''' |'''Positive Operator Valued Measurements (POVM's)''' |- |'''06.35.+w''' |'''Weak measurements''' |- |'''06.40.+z''' |'''Quantum Zeno effect''' |- |'''06.50.+t''' |'''Tomographic state reconstruction''' |- |'''06.60.+r''' |'''Non-tomographic state reconstruction/estimation''' |- |'''06.70.+e''' |'''Phase estimation''' |- |'''06.80.+s''' |'''Quantum state discrimination''' |- |'''06.85.+o''' |'''Quantum operator discrimination/reconstruction''' |- |'''06.90.+m''' |'''Parameter estimation''' |- | | |- | colspan=2|'''07. Mathematics of Hilbert space''' |- | | |- |'''07.10.+r''' |'''State representation (quasi-probability distributions, Poincare's sphere, Stokes parameters, etc.)''' |- |'''07.20.+b''' |'''Properties of special bases''' |- |'''07.30.+o''' |'''Properties of operators''' |- |'''07.40.+d''' |'''Distance between states''' |- |'''07.50.+n''' |'''No-go theorems''' |- |'''07.60.+s''' |'''Special states (graph states, cluster states, etc.)''' |- |- |} Category: ERA Quantiki Project

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Monday, October 26, 2015 - 17:56