First Annual Conference on Quantum Cryptography (QCRYPT) 2011
21
2011
153
14 Stunden 42 Minuten
21 Ergebnisse
1:01:29
51Sasaki, Masahide et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
31:34
4Leung, DebbieQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
24:11
10Speelman, Florian et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
53:17
6König, RobertQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
29:48
6Brunner, Nicolas et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
39:44
3Wehner, StephanieQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
59:06
7Vidick, ThomasQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
1:07:57
3Ekert, ArturQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
1:03:11
9Gisin, NicolasQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
1:02:19
2Polzik, EugeneQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
1:04:19
6Grangier, Philippe et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
33:55
12Broadbent, AnneQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
50:50
2Oppenheim, JonathanQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
06:57
1Kübler, OlafQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
25:41
6Poppe, Andreas et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
27:05
1Kalach, KassemQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
34:30
2Kwiat, Paul G.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
30:28
6Walenta, NinoQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
27:16
7Tsurumaru, ToyohiroQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
59:41
4Unruh, DominiqueQuantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)
29:18
5Xu, Feihu et al.Quantum cryptography aims to achieve security from fundamental physical principles, such as the quantum mechanical phenomena of entanglement and Heisenberg's uncertainty principle. In the last few years significant progress has been made in the theoretical understanding of quantum cryptography and its technological feasibility has been demonstrated experimentally. Quantum cryptography is therefore regarded as one of the most promising candidates for a future quantum technology. -- With QCRYPT we initiate a new conference series on Quantum Cryptography. The first conference in this series will be held at ETH Zurich and the second at CQT in Singapore. The aim of this series is to bring together researchers working on all aspects of the subject (both on the theoretical and experimental sides) and to support the building of a research community in Quantum Cryptography.
2011Eidgenössische Technische Hochschule Zürich (ETH Zürich)