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Adiabatic quantum state generation
Dorit Aharonov
*
, Amnon Ta-Shma
*
Corresponding author for this work
The Rachel and Selim Benin School of Engineering and Computer Science
Research output
:
Contribution to journal
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Article
›
peer-review
35
Scopus citations
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Keyphrases
Quantum State Creation
100%
Adiabatic States
60%
State Generation
60%
Quantum Algorithms
40%
Adiabatic Quantum Computing
40%
Quantum State
40%
Approximate Counting
40%
Spectral Gap
20%
Computational Complexity
20%
Bipartite Graph
20%
Generation Algorithm
20%
Perfect Matching
20%
Lattice Problems
20%
Fastest Mixing Markov Chain
20%
Statistical Zero-knowledge
20%
Quantum Circuit Model
20%
Counting Algorithm
20%
Graph Isomorphism Problem
20%
Physics
Physics
100%
Quantum Computing
100%
Markov Chain
100%
Theorem
100%
Ground State
100%
Computer Science
Quantum Algorithm
100%
Computational Complexity
50%
Theoretical Framework
50%
Perfect Matchings
50%
Bipartite Graph
50%
Adiabatic Quantum Computation
50%
Quantum Circuit Model
50%
Markov Chain
50%
Mathematics
Quantum State
100%
Approximates
28%
Quantum Algorithm
28%
Lattices
14%
Bipartite Graph
14%
Quantum Circuit Model
14%
Superposition
14%
Ground State
14%
Markov Chain
14%
Quantum Computation
14%
Perfect Matchings
14%