Statements (56)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:Quantum_Computing
|
| gptkbp:can_be_manipulated_using |
magnetic fields
|
| gptkbp:can_be_used_to_simulate |
black hole physics
|
| gptkbp:can_create |
laser cooling
|
| gptkbp:commissioned |
gptkb:1995
|
| gptkbp:composed_of |
gptkb:quantum_field_theory
|
| gptkbp:created_by |
optical traps
|
| gptkbp:discovered_by |
gptkb:Albert_Einstein
gptkb:Satyendra_Nath_Bose |
| gptkbp:exhibits |
gptkb:Bose-Einstein_statistics
superfluidity quantum phenomena |
| gptkbp:first_appearance |
gptkb:rubidium-87
|
| gptkbp:formed |
dilute gases
particles occupy the same quantum state |
| gptkbp:has_applications_in |
gptkb:quantum_computing
precision measurement |
| https://www.w3.org/2000/01/rdf-schema#label |
Bose-Einstein Condensate
|
| gptkbp:is_a_key_component_of |
quantum simulations
|
| gptkbp:is_a_phenomenon_that |
challenges classical physics
be observed in laboratories |
| gptkbp:is_a_state_of_matter |
at extremely low temperatures
|
| gptkbp:is_a_subject_of |
astrophysics
|
| gptkbp:is_characterized_by |
macroscopic occupation of quantum states
|
| gptkbp:is_essential_for |
quantum phase transitions
|
| gptkbp:is_observed_in |
ultracold atomic gases
|
| gptkbp:is_related_to |
gptkb:Quantum_Mechanics
Fermionic condensates |
| gptkbp:is_studied_for |
gptkb:quantum_entanglement
topological properties |
| gptkbp:is_studied_in |
condensed matter physics
quantum thermodynamics |
| gptkbp:is_used_in |
atomic physics experiments
|
| gptkbp:key_concept |
low-temperature physics
|
| gptkbp:occurs_at_temperatures |
near absolute zero
|
| gptkbp:state |
be achieved through evaporative cooling
be created with alkali metals be studied using interferometry be used to explore quantum mechanics be used to explore the limits of quantum mechanics be used to explore the nature of time be used to investigate quantum turbulence be used to study phase coherence be used to study the dynamics of quantum systems. exhibit long-range order exhibits coherence be used to explore the relationship between quantum mechanics and thermodynamics be used to study the emergence of classical behavior from quantum systems be used to investigate the foundations of quantum theory be used to study the behavior of matter at low temperatures be used to study the effects of interactions in quantum systems be used to investigate the role of symmetry in quantum systems |
| gptkbp:was_a_result_of |
gptkb:Bose-Einstein_statistics
|
| gptkbp:was_predicted_in |
1924
|
| gptkbp:bfsParent |
gptkb:Albert_Einstein
|
| gptkbp:bfsLayer |
3
|