研究方向
量子信息及其在密碼學中的套用;量子計算及其在網路安全、機器學習等領域的套用。
學術成果
論文
[19]Liu B, Gao Z F, Xiao D, et al. Quantum identity authentication in the orthogonal-state-encoding QKD system.Quantum Information Processing, 18(5), 2019, 137.
[18] Wei C Y, Cai X Q,Liu B, et al. A generic construction of quantum-oblivious-key-transfer-based private query with ideal database security and zero failure. IEEE Transactions on Computers, 67(1), 2018, 2-8. (影響因子3.052,CCF A類,SCI引用38次,ESI高被引論文)
[17]Liu B, Xiao, D, Huang, W, et al. Quantum private comparison employing single-photon interference.Quantum Information Processing, 16(7), 2017, Unsp 180. (影響因子2.283,中科院分區小類二區)
[16]Liu B, Xiao, D, Huang, W, et al. Comment on ``Quantum oblivious set-member decision protocol''. Physical Review A, 93(3), 2016, 036301. (影響因子2.909,中科院分區二區,Top期刊)
[15]Liu B, Xiao, D, Jia, H-Y, et al. Collusive attacks to “circle-type” multi-party quantum key agreement protocols. Quantum Information Processing, 2016, 15: 2113–2124. (影響因子2.283,中科院小類二區,SCI引用17次)
[14] Gao F,Liu B, Huang W, et al. Postprocessing of the Oblivious Key in Quantum Private Query. Ieee Journal of Selected Topics in Quantum Electronics, 21(3), 2015, 11 6600111. (影響因子3.367,中科院分區二區,SCI引用57次)
[13]Liu B, Gao, F, Huang, W, et al. QKD-based quantum private query without a failure probability.Science China-Physics Mechanics & Astronomy, 58(10), 2015, 6 100301. (影響因子2.754,SCI引用61次)
[12]Liu B, Gao, F, Huang, W, et al. Controlling the key by choosing the detection bits in quantum cryptographic protocols. Science China-Information Sciences, 58(11), 2015, 112110. (影響因子2.188,CCF B類期刊)
[11]Liu B, Gao, F, Qin, S J, et al. Choice of measurement as the secret. Physical Review A, 89(4), 2014, 042318. (影響因子2.909,中科院分區二區,Top期刊)
[10] Huang W, Wen Q Y,Liu B, et al. Quantum anonymous ranking. Physical Review A, 89(3), 2014, 13 032325. (影響因子2.909,中科院分區二區,Top期刊,SCI引用20次)
[9] Zhang J L, Guo F Z, Gao F,Liu B, et al. Private database queries based on counterfactual quantum key distribution. Physical Review A, 88(2), 2013, 8 022334. (影響因子2.909,中科院分區二區,Top期刊,SCI引用46次)
[8] Gao F,Liu B, Zhang W W, et al. Is quantum key distribution suitable for steganography? Quantum Information Processing, 12(1), 2013, 625-630.
[7]Liu B, Gao, F, Huang, W, et al. Multiparty quantum key agreement with single particles. Quantum Information Processing, 12(4), 2013, 1797-1805. (SCI引用38次)
[6]Liu B, Gao, F, Jia, H Y, et al. Efficient quantum private comparison employing single photons and collective detection. Quantum Information Processing, 12(2), 2013, 887-897. (SCI引用42次)
[5] Zhang W W, Gao F,Liu B, et al. A watermark strategy for quantum images based on quantum fourier transform. Quantum Information Processing, 12(2), 2013, 793-803. (SCI引用98次)
[4] Zhang W W, Gao F,Liu B, et al. A Quantum Watermark Protocol. International Journal of Theoretical Physics, 52(2), 2013, 504-513. (SCI引用59次)
[3] Gao F,Liu B, Wen, Q Y, et al. Flexible quantum private queries based on quantum key distribution. Optics Express, 20(16), 2012, 17411-17420. (影響因子3.356,中科院分區二區,Top期刊,SCI引用66次)
[2]Liu B, Gao, F, Wen, Q Y. Eavesdropping and Improvement to Multiparty Quantum Secret Sharing with Collective Eavesdropping-Check. International Journal of Theoretical Physics, 51(4), 2012, 1211-1223.
[1]Liu B, Gao, F, Wen, Q Y. Single-Photon Multiparty Quantum Cryptographic Protocols with Collective Detection. Ieee Journal of Quantum Electronics, 47(11), 2011, 1383-1390. (影響因子2.069,SCI引用23次,發表當年中科院分區二區)
項目
目前作為負責人負責的在研項目包括:
1. 國家自然科學基金青年項目,量子不經意密鑰分發的實際安全性研究
2. 博士後基金面上項目 量子保密查詢理論與實際安全性研究
3. 基於相位編碼的QPQ的設計與實現 重慶市博士後特別資助
4. 實用化量子身份認證研究 一般橫向項目
獲獎記錄
2016年 北京郵電大學優秀博士學位論文
2016年 度“博士後創新人才支持計畫”(首屆)
2017年 中國密碼學會優秀博士學位論文
2018年 《中國科學:力學 物理 天文學》2017年度優秀論文