Bose-Einstein Condensation and Superfluidity
Bose-Einstein Condensation and Superfluidity
Pitaevskii, Lev; Stringari, Sandro
Oxford University Press
03/2018
566
Mole
Inglês
9780198824435
15 a 20 dias
1054
Part I
2: Long range order, symmetry breaking and order parameter
3: The ideal Bose gas
4: The weakly-interacting Bose gas
5: Non-uniform Bose gases at zero temperature
6: Superfluidity
7: Linear response function
8: Superfluid He4
9: Atomic gases: collisions and trapping
Part II
10: The ideal Bose gas in the harmonic trap
11: Ground state of a trapped condensate
12: Dynamics of a trapped condensate
13: Thermodynamics of a trapped Bose gas
14: Superfluidity and Rotation of a trapped Bose gas
15: Coherence, interference and Josephon effect
Part III
16: Interacting Fermi gases and the BCS-BEC crossover
17: Fermi gas in the harmonic trap
18: Tan relations and the contact
19: Dynamic and Superfluidity of Fermi gases
20: Spin polarized Fermi gases
Part IV
21: Quantum mixtures and spinor gases
22: Quantum Gases in optical lattices
23: Quantum gases in pancake and 2D regimes
24: Quantum gases in cigar and 1D regimes
25: Dipolar gases
1: Introduction
Part I
2: Long range order, symmetry breaking and order parameter
3: The ideal Bose gas
4: The weakly-interacting Bose gas
5: Non-uniform Bose gases at zero temperature
6: Superfluidity
7: Linear response function
8: Superfluid He4
9: Atomic gases: collisions and trapping
Part II
10: The ideal Bose gas in the harmonic trap
11: Ground state of a trapped condensate
12: Dynamics of a trapped condensate
13: Thermodynamics of a trapped Bose gas
14: Superfluidity and Rotation of a trapped Bose gas
15: Coherence, interference and Josephon effect
Part III
16: Interacting Fermi gases and the BCS-BEC crossover
17: Fermi gas in the harmonic trap
18: Tan relations and the contact
19: Dynamic and Superfluidity of Fermi gases
20: Spin polarized Fermi gases
Part IV
21: Quantum mixtures and spinor gases
22: Quantum Gases in optical lattices
23: Quantum gases in pancake and 2D regimes
24: Quantum gases in cigar and 1D regimes
25: Dipolar gases
Part I
2: Long range order, symmetry breaking and order parameter
3: The ideal Bose gas
4: The weakly-interacting Bose gas
5: Non-uniform Bose gases at zero temperature
6: Superfluidity
7: Linear response function
8: Superfluid He4
9: Atomic gases: collisions and trapping
Part II
10: The ideal Bose gas in the harmonic trap
11: Ground state of a trapped condensate
12: Dynamics of a trapped condensate
13: Thermodynamics of a trapped Bose gas
14: Superfluidity and Rotation of a trapped Bose gas
15: Coherence, interference and Josephon effect
Part III
16: Interacting Fermi gases and the BCS-BEC crossover
17: Fermi gas in the harmonic trap
18: Tan relations and the contact
19: Dynamic and Superfluidity of Fermi gases
20: Spin polarized Fermi gases
Part IV
21: Quantum mixtures and spinor gases
22: Quantum Gases in optical lattices
23: Quantum gases in pancake and 2D regimes
24: Quantum gases in cigar and 1D regimes
25: Dipolar gases
1: Introduction
Part I
2: Long range order, symmetry breaking and order parameter
3: The ideal Bose gas
4: The weakly-interacting Bose gas
5: Non-uniform Bose gases at zero temperature
6: Superfluidity
7: Linear response function
8: Superfluid He4
9: Atomic gases: collisions and trapping
Part II
10: The ideal Bose gas in the harmonic trap
11: Ground state of a trapped condensate
12: Dynamics of a trapped condensate
13: Thermodynamics of a trapped Bose gas
14: Superfluidity and Rotation of a trapped Bose gas
15: Coherence, interference and Josephon effect
Part III
16: Interacting Fermi gases and the BCS-BEC crossover
17: Fermi gas in the harmonic trap
18: Tan relations and the contact
19: Dynamic and Superfluidity of Fermi gases
20: Spin polarized Fermi gases
Part IV
21: Quantum mixtures and spinor gases
22: Quantum Gases in optical lattices
23: Quantum gases in pancake and 2D regimes
24: Quantum gases in cigar and 1D regimes
25: Dipolar gases