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Coherent control
Known as:
Quantum control
, Quantum optimal control
Coherent control is a quantum mechanical based method for controlling dynamical processes by light.The basic principle is to control quantum…
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Related topics
Related topics
12 relations
Analysis of algorithms
Calculus of variations
Center for Quantum Information Science & Technology
Chirp
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Broader (2)
Control theory
Quantum mechanics
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2015
2015
Fast quantum control and light-matter interactions at the 10,000 quanta level
J. Alonso
,
F. Leupold
,
+5 authors
J. Home
2015
Corpus ID: 119208349
Fast control of quantum systems is essential in order to make use of quantum properties before they are degraded by decoherence…
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2015
2015
Searching for quantum optimal controls under severe constraints
Gregory Riviello
,
K. Tibbetts
,
+4 authors
H. Rabitz
2015
Corpus ID: 119286049
The success of quantum optimal control for both experimental and theoretical objectives is connected to the topology of the…
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Highly Cited
2012
Highly Cited
2012
Atomic and photonic entanglement concentration via photonic Faraday rotation
Zhao-Hui Peng
,
J. Zou
,
Xiao-Juan Liu
,
Yong-Jun Xiao
,
L. Kuang
2012
Corpus ID: 67812679
We propose two alternative entanglement concentration protocols (ECPs) using the Faraday rotation of photonic polarization…
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2009
2009
Efficient technique for measuring laser frequency stability
A. Sargsyan
,
A. Papoyan
,
D. Sarkisyan
,
A. Weis
2009
Corpus ID: 55484492
We propose a new technique for measuring the frequency stability of cw laser radiation. The technique relies on using the laser…
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Highly Cited
2006
Highly Cited
2006
Quantum control by ultrafast dressed states tailoring
M. Wollenhaupt
,
D. Liese
,
A. Präkelt
,
C. Sarpe-Tudoran
,
T. Baumert
2006
Corpus ID: 73639963
2005
2005
Non-perturbative Quantum Control via the Non-resonant Dynamic Stark Effect
A. Stolow
2005
Corpus ID: 53518526
intermediate field strength regime snonperturbative but nonionizingd. We illustrate this scheme for the case of nonadiabatic…
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Highly Cited
2002
Highly Cited
2002
Buffer-gas cooling of atomic and molecular beams
D. Egorov
,
T. Lahaye
,
W. Schöllkopf
,
B. Friedrich
,
J. Doyle
2002
Corpus ID: 56164393
We demonstrate direct loading and cooling of a thermal beam into a cryogenic helium buffer gas. Our test species is rubidium; we…
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Highly Cited
1998
Highly Cited
1998
Quantum control of the yield of a chemical reaction
I. Pastirk
,
E. Brown
,
Qingguo Zhang
,
M. Dantus
1998
Corpus ID: 4984527
Order of magnitude enhancement in the concerted elimination pathway leading to I2 product formation in the photodissociation…
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1994
1994
The effect of control field and measurement imprecision on laboratory feedback control of quantum systems
Gábor J. Tóth
,
A. Lőrincz
,
H. Rabitz
1994
Corpus ID: 690492
Recent theoretical studies suggest the feasibility of laboratory adaptive feedback optimal control (AFOC) of chemical processes…
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Highly Cited
1993
Highly Cited
1993
Optical control of molecular dynamics: Molecular cannons, reflectrons, and wave‐packet focusers
J. Krause
,
R. Whitnell
,
K. Wilson
,
Yijing Yan
,
S. Mukamel
1993
Corpus ID: 85505352
We consider the control of molecular dynamics using tailored light fields, based on a phase space theory of control [Y. J. Yan et…
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