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

 

02. FUNDAMENTAL PROBLEMS

02.10.+t Quantum-Classical Transition

02.20.+c Mesoscopic and Macroscopic Quantum Coherence

02.30.-n Entanglement, nonlocality, complementarity

02.30.Bi Bell inequalities

02.30.An Bell theorem without inequalities

02.30.Lh Loopholes in Bell-type experiments

02.40.+d Interaction with environment

02.50.+r Reference frames in quantum mechanics

02.60.+g Geometric/topological phases

02.70.+a Theories alternative to quantum mechanics

02.80.+i Fundamentals of quantum interference (quantum eraser, which-way information, etc.)

02.90.+f Foundational issues of quantum mechanics

 

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/Disentangling power of quantum evolutions and transformations

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

 

04. ENTANGLEMENT IN MANY-BODY SYSTEMS

04.10.+s Entanglement in spin models/oscillator chains

04.20.+b Squeezing and entanglement in quantum degenerate gases and BCS model

04.25.+l 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 Entanglement in mesoscopic/macroscopic systems

04.70.+m Multi-particle/multi-photon entanglement

04.80.+d Entanglement dynamics in composite quantum systems

04.90.+t Entanglement transfer

 

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

 

06. QUANTUM MEASUREMENTS 

06.10.+d Dynamics of the measurement process

06.15.+e Measurement-induced transformations

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

 

06. MATHEMATICS OF HILBERT SPACE

07.10.+r State representations (quasi-probability distributions, Poincare’ 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.)