ISNI: |
0000 0001 1042 1421
https://isni.org/isni/0000000110421421
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Name: |
Lloyd, S.
Lloyd, Seth
Seth Lloyd (American engineer)
Seth Lloyd (Amerikaans natuurkundige)
Seth Lloyd (amerikansk ingeniør og fysikar)
Seth Lloyd (amerikansk ingeniør og fysiker)
Seth Lloyd (amerikansk ingenjör och fysiker)
Seth Lloyd (fisico e informatico statunitense)
Seth Lloyd (US-amerikanischer Quanteninformatiker)
Ллойд, Сет
Сет Ллойд
ست لوید (فیزیکدان و مهندس آمریکایی)
セス・ロイド
ロイド, セス
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Dates: |
1960- |
Creation class: |
article
Language material
txt
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Creation role: |
author
creator
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Related names: |
Mizutani, Jun (1970-)
水谷, 淳 (1970-)
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Titles: |
ALGORITHMIC COOLING OF SPINS: A PRACTICABLE METHOD FOR INCREASING POLARIZATION
Almost certain escape from black holes in final state projection models.
Border between regular and chaotic quantum dynamics.
Classical capacity of the lossy bosonic channel: the exact solution.
Coherent quantum feedback
Computation from geometry
Computational capacity of the universe.
Conditions for multiplicativity of maximal Lp-norms of channels for fixed integer p
Continuous-variable quantum cryptography using two-way quantum communication
Dynamical generation of noiseless quantum subsystems
Engineering the quantum measurement process for the persistent current qubit
Enhanced Sensitivity of Photodetection via Quantum Illumination
Entanglement assisted capacity of the broadband Lossy channel.
Envisioning a Quantum Supercomputer
Experimental implementation of the quantum baker's map.
Experimental realization of a quantum algorithm
Fidelity decay as an efficient indicator of quantum chaos.
Interferometric tunability of absorption.
Long distance, unconditional teleportation of atomic states via complete Bell state measurements.
Macroscopic entanglement by entanglement swapping.
Minimum Bosonic Channel Output Entropies
MINIMUM OUTPUT ENTROPY OF A GAUSSIAN BOSONIC CHANNEL
Physical limits to communication.
potentially realizable quantum computer, A
Power of entanglement in quantum communication.
Programming the universe, 2006:
Programming the universe a quantum computer scientist takes on the cosmos
Pseudo-Random Unitary Operators for Quantum Information Processing
Quantum computing. Computation from geometry.
Quantum-Enhanced Measurements: Beating the Standard Quantum Limit
Quantum-enhanced positioning and clock synchronization.
Quantum Information Matters
Quantum metrology.
Quantum process tomography of the quantum Fourier transform.
quantum speed limit, The
Quantum superposition of macroscopic persistent-current states.
Quantum tensor product structures are observable induced.
speed limit of quantum unitary evolution, The
Topological protection and quantum noiseless subsystems.
Uchū o puroguramusuru uchū : Ikanishite keisansuru uchū wa fukuzatsuna sekai o tsukuttaka
Ultimate physical limits to computation
Universal quantum simulators
Программируя Вселенную
宇宙をプログラムする宇宙 : いかにして「計算する宇宙」は複雑な世界を創ったか?
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Contributed to or performed: |
SCIENCE -NEW YORK THEN WASHINGTON- |
Notes: |
Wikipedia https://de.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://en.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://fi.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://fr.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://it.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://ja.wikipedia.org/wiki/セス・ロイド
Wikipedia https://mg.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://nl.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://pt.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://ru.wikipedia.org/wiki/Ллойд,_Сет
Wikipedia https://tr.wikipedia.org/wiki/Seth_Lloyd
Wikipedia https://uk.wikipedia.org/wiki/Сет_Ллойд
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Sources: |
NLN
NTA
ZETO
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