Quantum-secured blockchain
Quantum Science and Technology IOP Publishing 3:3 (2018) 035004
Abstract:
Blockchain is a distributed database which is cryptographically protected against malicious modifications. While promising for a wide range of applications, current blockchain platforms rely on digital signatures, which are vulnerable to attacks by means of quantum computers. The same, albeit to a lesser extent, applies to cryptographic hash functions that are used in preparing new blocks, so parties with access to quantum computation would have unfair advantage in procuring mining rewards. Here we propose a possible solution to the quantum era blockchain challenge and report an experimental realization of a quantum-safe blockchain platform that utilizes quantum key distribution across an urban fiber network for information-theoretically secure authentication. These results address important questions about realizability and scalability of quantum-safe blockchains for commercial and governmental applications.Optical nanofiber temperature monitoring via double heterodyne detection
AIP Advances AIP Publishing 8:5 (2018) 055005
Quantum Physics An Introduction Based on Photons
Springer, 2018
Abstract:
The book uses a mathematically simple physical system – photon polarization – as the visualization tool, permitting the student to see the entangled beauty of the quantum world from the very first pages.Generating and breeding optical Schrödinger’s cat states
AIP Conference Proceedings AIP Publishing 1936:1 (2018) 020018
Towards interconversion between discrete- and continuous-variable encodings in quantum optics
AIP Conference Proceedings AIP Publishing 1936:1 (2018) 020017