Quantum Teleportation Protocol

URI: https://gptkb.org/entity/Quantum_Teleportation_Protocol
GPTKB entity
Statements (51)
Predicate Object
gptkbp:instanceOf gptkb:physicist
gptkbp:basedOn quantum_mechanics
gptkbp:can_be instantaneous state transfer
gptkbp:description transfer_of_quantum_states
gptkbp:designedBy gptkb:Charles_Bennett
gptkbp:firstIntroduced gptkb:D._Bouwmeester
gptkbp:has_a traditional teleportation
gptkbp:has_a_focus_on quantum_technology_research
gptkbp:has_implications_for theoretical physics
gptkbp:hasPrograms secure communication
preserves quantum information
requires synchronization
can be affected by noise
can be scaled up for multiple qubits
enables remote state preparation
has been analyzed mathematically
has been simulated in experiments
has implications for quantum theory
has potential for future technologies
involves quantum measurement
involves quantum state collapse
is fundamental to quantum mechanics.
is still under investigation
https://www.w3.org/2000/01/rdf-schema#label Quantum Teleportation Protocol
gptkbp:influenced gptkb:Bell's_theorem
gptkbp:involves classical communication
measurement and classical transmission
gptkbp:is_a quantum_information_transfer
gptkbp:is_a_key_component_of gptkb:quantum_networks
gptkbp:is_a_subject_of gptkb:quantum_teleportation
challenges classical physics
quantum_information_theory
quantum_physics
gptkbp:is_a_time_for secure data transmission
quantum_state_transfer
gptkbp:is_essential_for gptkb:quantum_internet
gptkbp:is_studied_in gptkb:quantum_cryptography
1997
gptkbp:is_used_in gptkb:quantum_computing
quantum_key_distribution
gptkbp:leads quantum_computing_advancements
gptkbp:presentedBy atoms
photons
ions
gptkbp:related_to superposition
quantum_entanglement
quantum_coherence
gptkbp:requires gptkb:quantum_bits_(qubits)
entangled particles
gptkbp:theory quantum_mechanics
gptkbp:was_a_result_of quantum_entanglement_phenomena