Quantum algorithm for phase estimation

URI: https://gptkb.org/entity/Quantum_algorithm_for_phase_estimation

GPTKB entity

Properties (45)

Predicate	Object
gptkbp:instanceOf	gptkb:physicist
gptkbp:adaptedInto	noisy quantum systems
gptkbp:aimsTo	the efficiency of quantum algorithms
gptkbp:appliesTo	Hamiltonian simulation quantum_error_correction
gptkbp:basedOn	the_quantum_Fourier_transform
gptkbp:can_be	exponential speedup over classical algorithms
gptkbp:createdBy	classical computers for small systems
gptkbp:expansion	multiple eigenvalues
gptkbp:has_a_focus_on	quantum_algorithm_research.
https://www.w3.org/2000/01/rdf-schema#label	Quantum algorithm for phase estimation
gptkbp:influenced	classical phase estimation methods
gptkbp:involves	controlled unitary operations
gptkbp:is_a_key_component_of	quantum_algorithms_for_optimization quantum_supremacy_demonstrations
gptkbp:is_a_model_for	the phase of a quantum state
gptkbp:is_a_subject_of	ongoing research
gptkbp:is_a_time_for	finding eigenvalues
gptkbp:is_a_tool_for	quantum_state_tomography
gptkbp:is_designed_to	quantum communication protocols estimate the eigenphase of an eigenvector quantum_sensing_techniques
gptkbp:is_essential_for	gptkb:quantum_cryptography quantum_technology quantum_chemistry_simulations
gptkbp:is_part_of	quantum_algorithm_development
gptkbp:is_recognized_for	quantum circuits various quantum programming languages
gptkbp:is_studied_in	quantum_information_theory quantum_systems
gptkbp:is_used_in	gptkb:quantum_computing quantum annealing solve linear systems of equations quantum_algorithms_for_simulation quantum_state_preparation_techniques
gptkbp:powerOutput	estimates of the phase
gptkbp:related_to	gptkb:Shor's_algorithm gptkb:quantum_networks linear_algebra
gptkbp:requires	gptkb:quantum_bits_(qubits) quantum_states quantum_gates
gptkbp:suitableFor	machine learning
gptkbp:technique	quantum_mechanics
gptkbp:utilizes	quantum_superposition