Linked e-resources
Details
Table of Contents
Introduction: gut and anti-gut
pt. I. Quantum Bose liquid. Gravity
Microscopic physics of Introduction: gut and anti-gut
pt. I. Quantum Bose liquid. Gravity
Microscopic physics of quantum liquids
Effective theory of superfluidity
Two-fluid hydrodynamics
Advantages and drawbacks of effective theory
pt. II. Quantum fermionic liquids. Microscopic physics
Universality classes of fermionic vacua
Effective Quantum Electrodynamics In 3He-A
Three levels of phenomenology of superfluid 3He
Momentum space topology of 2 + 1 systems
Momentum space topology protected by symmetry
pt. III. Topological defects
Topological classification of defects
Vortices in 3He-B
Symmetry breaking in 3He-A and singular vortices
Continuous structures
Monopoles and boojums
pt. IV. Anomalies of chiral vacuum. Anomalous non-conservation of fermionic charge
Anomalous currents
Macroscopic parity-violating effects
Quantization of physical parameters
pt. V. Fermions on topological objects and brane world
Edge states and fermion zero modes on soliton
Fermion zero modes on vortices
Vortex mass
Spectral flow in the vortex core
pt. VI. Nucleation of quasiparticles and topological defects. Landau critical velocity
Vortex formation by Kelvin-Helmholtz instability
Vortex formation in ionizing radiation
pt. VII. Vacuum energy and vacuum in non-trivial gravitational background. Casimir effect and vacuum energy
Topological defects as source of non-trivial metric
Vacuum under rotation and spinning strings
Analogs of event horizon
Conclusion.
pt. I. Quantum Bose liquid. Gravity
Microscopic physics of Introduction: gut and anti-gut
pt. I. Quantum Bose liquid. Gravity
Microscopic physics of quantum liquids
Effective theory of superfluidity
Two-fluid hydrodynamics
Advantages and drawbacks of effective theory
pt. II. Quantum fermionic liquids. Microscopic physics
Universality classes of fermionic vacua
Effective Quantum Electrodynamics In 3He-A
Three levels of phenomenology of superfluid 3He
Momentum space topology of 2 + 1 systems
Momentum space topology protected by symmetry
pt. III. Topological defects
Topological classification of defects
Vortices in 3He-B
Symmetry breaking in 3He-A and singular vortices
Continuous structures
Monopoles and boojums
pt. IV. Anomalies of chiral vacuum. Anomalous non-conservation of fermionic charge
Anomalous currents
Macroscopic parity-violating effects
Quantization of physical parameters
pt. V. Fermions on topological objects and brane world
Edge states and fermion zero modes on soliton
Fermion zero modes on vortices
Vortex mass
Spectral flow in the vortex core
pt. VI. Nucleation of quasiparticles and topological defects. Landau critical velocity
Vortex formation by Kelvin-Helmholtz instability
Vortex formation in ionizing radiation
pt. VII. Vacuum energy and vacuum in non-trivial gravitational background. Casimir effect and vacuum energy
Topological defects as source of non-trivial metric
Vacuum under rotation and spinning strings
Analogs of event horizon
Conclusion.