Lin Chen
Country:
Singapore
Current Affiliation:
Centre for Quantum Technologies (CQT),
National University of Singapore,
#04-10, Blk S15,
3 Science Drive 2,
Lower Kent Ridge Road,
Singapore, 117543
PHONE NUMBER: 65-65164476(o)
Current Position:
postdoc
Field of Research:
PHYSICAL SCIENCES - Quantum Physics - Quantum Information, Computation and Communication
Professional Memberships:
Eric Chitambar (University of Michigan, US)
Masahito Hayashi (Tohoku university, Japan);
Toshio Sakata (Kyushu university, Japan);
Wei Song (South China Normal University,China);
Andreas Winter (University of Bristol,UK);
Masahito Hayashi (Tohoku university, Japan);
Toshio Sakata (Kyushu university, Japan);
Wei Song (South China Normal University,China);
Andreas Winter (University of Bristol,UK);
Research Interests:
separability; multipartite state; entanglement measure; distillability and bound entanglement; state classification and manipulation; quantum channels, capacity and additivity; decoherence and entanglement sudden death; mutually unbiased bases(MUBs) and Sic-POVM, graph states for quantum computation, teleportation, quantum secret sharing, state cloning and discrimination, etc; all are in theory;
Publication History:
1. Sudden death of distillability in qutrit-qutrit systems,
Wei Song, Lin Chen and Shi-Liang Zhu, Phy. Rev. A, 80, 012331, quant-ph/0904.4847.
2. Rank three entangled states are distillable,
L. Chen and Y. X. Chen, Phy. Rev. A, 78, 022318 (2008), quant-ph/0803.1011.
3. Entanglement of formation from optimal decomposition,
L. Chen and Y. X. Chen, Quantum Inf. Comp, 8, 965-976 (2008), quant-ph/0710.2389.
4. Symmetric quantum telecloning of multiqubit states,
L. Chen and Y. X. Chen, Quantum Inf. Comp, 7, 716-729 (2007), quant-ph/0610249.
5. Multiqubit entanglement witness,
L. Chen and Y. X. Chen, Phy. Rev. A, 76, 022330 (2007), quant-ph/0705.2665.
6 . Mixed qubits cannot be universally broadcast,
L. Chen and Y. X. Chen, Phy. Rev. A, 75, 062322 (2007), quant-ph/0612205.
7. Classification of GHZ-type, W-type, and GHZ-W-type multiqubit entanglement,
L. Chen and Y. X. Chen, Phy. Rev. A, 74, 062310 (2006), quant-ph/0605196.
8. Classification of multipartite entanglement containing infinitely many
kinds of states,
L. Chen, and Y. X. Chen, and Y. X. Mei, Phy. Rev. A, 74, 052331 (2006), quant-ph/0604184.
9. Range criterion and classification of true entanglement in a 2*M*N system,
L. Chen and Y. X. Chen, Phy. Rev. A, 74, 052310 (2006), quant-ph/0506152.
10. Remote state preparation using non-maximally entangled state: universality and necessary amount of quantum channels,
Y. X. Mei, L. Chen, and Y. X. Chen, Chin. Phys. Lett. 23, 548 (2006), quant-ph/0410190.
11. Probabilistic implementation of a nonlocal operation using a nonmaximally
entangled state, L. Chen and Y. X. Chen, Phy. Rev. A, 71, 054302 (2005), quant-ph/0501107.
Wei Song, Lin Chen and Shi-Liang Zhu, Phy. Rev. A, 80, 012331, quant-ph/0904.4847.
2. Rank three entangled states are distillable,
L. Chen and Y. X. Chen, Phy. Rev. A, 78, 022318 (2008), quant-ph/0803.1011.
3. Entanglement of formation from optimal decomposition,
L. Chen and Y. X. Chen, Quantum Inf. Comp, 8, 965-976 (2008), quant-ph/0710.2389.
4. Symmetric quantum telecloning of multiqubit states,
L. Chen and Y. X. Chen, Quantum Inf. Comp, 7, 716-729 (2007), quant-ph/0610249.
5. Multiqubit entanglement witness,
L. Chen and Y. X. Chen, Phy. Rev. A, 76, 022330 (2007), quant-ph/0705.2665.
6 . Mixed qubits cannot be universally broadcast,
L. Chen and Y. X. Chen, Phy. Rev. A, 75, 062322 (2007), quant-ph/0612205.
7. Classification of GHZ-type, W-type, and GHZ-W-type multiqubit entanglement,
L. Chen and Y. X. Chen, Phy. Rev. A, 74, 062310 (2006), quant-ph/0605196.
8. Classification of multipartite entanglement containing infinitely many
kinds of states,
L. Chen, and Y. X. Chen, and Y. X. Mei, Phy. Rev. A, 74, 052331 (2006), quant-ph/0604184.
9. Range criterion and classification of true entanglement in a 2*M*N system,
L. Chen and Y. X. Chen, Phy. Rev. A, 74, 052310 (2006), quant-ph/0506152.
10. Remote state preparation using non-maximally entangled state: universality and necessary amount of quantum channels,
Y. X. Mei, L. Chen, and Y. X. Chen, Chin. Phys. Lett. 23, 548 (2006), quant-ph/0410190.
11. Probabilistic implementation of a nonlocal operation using a nonmaximally
entangled state, L. Chen and Y. X. Chen, Phy. Rev. A, 71, 054302 (2005), quant-ph/0501107.
-
Anianet provides custom content, colleague, and group recommendations as part of its free membership. Register or log in to access your own tailored recommendations.
-
Anianet provides the latest news, research, grant opportunities, and meeting announcements tailored to your interests as part of its free membership. Register or log in to access your own custom research news.
Documents
| Date Uploaded | Name | Description | File | Ratings | Options |
| 2009-12-20 13:21PM | CV | updated time=20dec2009... | linchen_cv.pdf |
|
