The goal of quantum benchmarking is to certify that imperfect quantum communication devices (e.g., quantum channels, quantum memories, quantum key distribution systems) can still be used for meaningful quantum communication. However, the test states use
We establish the ultimate quantum limits to the amplification of an unknown coherent state, both in ...
Quantum computing systems need to be benchmarked in terms of practical tasks they would be expected ...
A quantum bit\u27s ability to be in a superposition of 0 and 1 solves many problems that were otherw...
8 pages, 1 figure, 4 text boxes, 1 table, invited review for Nature ReviewsConcomitant with the rapi...
In this thesis, we develop a number of operational tests and tools for benchmarking the quantum natu...
© 2014 American Physical Society. Quantum technology promises revolutionary advantages in informatio...
Producing useful quantum information devices requires efficiently assessing control of quantum syste...
We investigate several recently published benchmark criteria for storage or transmission of continuo...
Quantum networks provide numerous potential benefits over classical networks, such as enhanced secur...
Quantum technology promises revolutionary advantages in information processing and transmission comp...
Quantum benchmarks are routinely used to validate the experimental demonstration of quantum informat...
Quantum computers promise to be a revolutionary new technology. However, in order to realise this pr...
Abstract Quantum memory—the capacity to faithfully preserve quantum coherence and correlations—is es...
We give a quantum benchmark for teleportation and quantum storage experiments suited for pure and mi...
Recently, various quantum computing and communication tasks have been implemented using IBM's superc...
We establish the ultimate quantum limits to the amplification of an unknown coherent state, both in ...
Quantum computing systems need to be benchmarked in terms of practical tasks they would be expected ...
A quantum bit\u27s ability to be in a superposition of 0 and 1 solves many problems that were otherw...
8 pages, 1 figure, 4 text boxes, 1 table, invited review for Nature ReviewsConcomitant with the rapi...
In this thesis, we develop a number of operational tests and tools for benchmarking the quantum natu...
© 2014 American Physical Society. Quantum technology promises revolutionary advantages in informatio...
Producing useful quantum information devices requires efficiently assessing control of quantum syste...
We investigate several recently published benchmark criteria for storage or transmission of continuo...
Quantum networks provide numerous potential benefits over classical networks, such as enhanced secur...
Quantum technology promises revolutionary advantages in information processing and transmission comp...
Quantum benchmarks are routinely used to validate the experimental demonstration of quantum informat...
Quantum computers promise to be a revolutionary new technology. However, in order to realise this pr...
Abstract Quantum memory—the capacity to faithfully preserve quantum coherence and correlations—is es...
We give a quantum benchmark for teleportation and quantum storage experiments suited for pure and mi...
Recently, various quantum computing and communication tasks have been implemented using IBM's superc...
We establish the ultimate quantum limits to the amplification of an unknown coherent state, both in ...
Quantum computing systems need to be benchmarked in terms of practical tasks they would be expected ...
A quantum bit\u27s ability to be in a superposition of 0 and 1 solves many problems that were otherw...
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