Norbert Lutkenhaus
Norbert Lutkenhaus
Institute for Quantum Computing, and Department of Physics & Astronomy, University of Waterloo
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Cited by
Cited by
The security of practical quantum key distribution
V Scarani, H Bechmann-Pasquinucci, NJ Cerf, M Dušek, N Lütkenhaus, ...
Reviews of modern physics 81 (3), 1301-1350, 2009
KDIGO 2012 clinical practice guideline for the evaluation and management of chronic kidney disease
G Eknoyan, N Lameire, K Eckardt, B Kasiske, D Wheeler, A Levin, ...
Kidney int 3 (1), 5-14, 2013
Limitations on practical quantum cryptography
G Brassard, N Lütkenhaus, T Mor, BC Sanders
Physical Review Letters 85 (6), 1330-1333, 2000
Security of quantum key distribution with imperfect devices
D Gottesman, HK Lo, N Lutkenhaus, J Preskill
Information Theory, 2004. ISIT 2004. Proceedings. International Symposium on …, 2004
The SECOQC quantum key distribution network in Vienna
M Peev, C Pacher, R Alléaume, C Barreiro, J Bouda, W Boxleitner, ...
New Journal of Physics 11 (7), 075001, 2009
Security against individual attacks for realistic quantum key distribution
N Lütkenhaus
Physical Review A 61 (5), 052304, 2000
Bell measurements for teleportation
N Lütkenhaus, J Calsamiglia, KA Suominen
Physical Review A 59 (5), 3295, 1999
Optimal architectures for long distance quantum communication
S Muralidharan, L Li, J Kim, N Lütkenhaus, MD Lukin, L Jiang
Scientific reports 6 (1), 20463, 2016
Continuous variable quantum cryptography: Beating the 3 dB loss limit
C Silberhorn, TC Ralph, N Lütkenhaus, G Leuchs
Physical review letters 89 (16), 167901, 2002
Quantum information processing and communication: Strategic report on current status, visions and goals for research in Europe
P Zoller, T Beth, D Binosi, R Blatt, H Briegel, D Bruss, T Calarco, JI Cirac, ...
The European Physical Journal D-Atomic, Molecular, Optical and Plasma …, 2005
Entanglement as a precondition for secure quantum key distribution
M Curty, M Lewenstein, N Lütkenhaus
Physical review letters 92 (21), 217903, 2004
Unconditional security of practical quantum key distribution
H Inamori, N Lütkenhaus, D Mayers
The European Physical Journal D 41, 599-627, 2007
Higher-dimensional orbital-angular-momentum-based quantum key distribution with mutually unbiased bases
M Mafu, A Dudley, S Goyal, D Giovannini, M McLaren, MJ Padgett, ...
Physical Review A—Atomic, Molecular, and Optical Physics 88 (3), 032305, 2013
Quantum key distribution with realistic states: photon-number statistics in the photon-number splitting attack
N Lütkenhaus, M Jahma
New Journal of Physics 4 (1), 44, 2002
Maximum efficiency of a linear-optical Bell-state analyzer
J Calsamiglia, N Lütkenhaus
Applied Physics B 72, 67-71, 2001
Ultrafast and fault-tolerant quantum communication across long distances
S Muralidharan, J Kim, N Lütkenhaus, MD Lukin, L Jiang
Physical review letters 112 (25), 250501, 2014
Estimates for practical quantum cryptography
N Lütkenhaus
Physical Review A 59 (5), 3301, 1999
Self-referenced continuous-variable quantum key distribution protocol
DBS Soh, C Brif, PJ Coles, N Lütkenhaus, RM Camacho, J Urayama, ...
Physical Review X 5 (4), 041010, 2015
Nonclassical effects in phase space
N Lütkenhaus, SM Barnett
Physical Review A 51 (4), 3340, 1995
Quantum cryptography
M Dušek, N Lütkenhaus, M Hendrych
Progress in optics 49, 381-454, 2006
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