Publications

*Corresponding authors; # First authors; @ University of Electronic Science and Technology of China; $ Tsinghua University, China; & University of Science and Technology of China; % University of Calgary, Canada; @@ Wuhan Institute of Technology, China;$$ Southwest Institute of Technical Physics

2019

59. Qi-Zhi Cai(#), Jin-Kun Liao*, and Qiang Zhou, “Entangling two microwave modes via optomechanics,” Phys. Rev. A 100, 042330 (2019). (By @)

58. Yong Geng(#), Wenwen Cui, Qing Wen, Boyang Wang, Qiang Zhou, Baojian Wu, and Heng Zhou*, “Microcavity-based narrowband parametric amplifier for carrier recovery in optical coherent self-homodyne detection,” Optics Letters 44(14), 3490-3493, 2019. (By @)

57. Yunru Fan(#), Peng Wu, Mohamed Ahmed Baba, Qing Luo, Qiang Zhou,  Guangwei Deng, Haizhi Song, and You Wang*, “Improvement of taper degree of laser-drilled holes via a double-pulse train,” Applied Optics 58(26), 7028-7034, 2019. (By @ and $$)

56. Xingyong Huang(#), Daqin Chen, Bizhou Shen and  Hai-Zhi Song*, “Preparation and 1.06 µm Fluorescence Decay of Nd3-Doped Glass Ceramics Containing NaYF4 Nano-crystallites,” Chinese Phys. Lett. 36(8), 084203, 2019. (By @ and $$)

55. Weiwu Chen(#), Ishwar K Mishra, Zhaojun Qin, Luo Yu, Haiqing Zhou, Jingying Sun, Fanghao Zhang, Shuo Chen, Gideon E Wenya, Ying Yu, Zhiming M Wang, Hai-Zhi Song*, and Zhifeng Ren,” Nickel phosphide based hydrogen producing catalyst with low over potential and stability at high current density,” Electrochimica Acta 299, 756-761, 2019. (By @ and $$)

54. R Valivarthi(#), P Umesh, C John, K A Owen, V B Verma, SW Nam, D Oblak, Qiang Zhou, and W Tittel*, “Measurement-device-independent quantum key distribution coexisting with classical communication,” Quantum Sci. Technol. 4 045002, 2019. (by @ and %).

53. Bin Li (#), Guangwei Deng, Ruiming Zhang, Zhonghua Ou, Heng Zhou, Yun Ling, Yunxiang Wang, You Wang, Kun Qiu, Haizhi Song, and Qiang Zhou*, “High dynamic range externally time-gated photon counting optical time-domain reflectometry,” Journal of Lightwave Technology, 2019. (by @)

52. Shi-long Liu(#), Qiang Zhou*, Zhi-yuan Zhou*, Shi-kai Liu, Yan Li, Yin-hai Li, Chen Yang, Zhao-huai Xu, Guang-can Guo, and Bao-sen Shi*, “Multiplexing heralded single photons in orbital-angular-momentum space,” Phys. Rev. A 100, 013833, 2019. (By @ and &)

51. Shi-Long Liu(#), Qiang Zhou, Shi-Kai Liu, Yan Li, Yin-Hai Li, Zhi-Yuan Zhou*, Guang-Can Guo, and Bao-Sen Shi*, “Classical analogy of a cat state using vortex light,” Communications Physics 2, Article number: 75, 2019. (By @ and &)

50. Peng Wu(#), Qiang Zhou*, Yueqi Wang, Guangwei Deng, Yunru Fan, Si Shen, Qiang Xu, Yunxiang Wang, Haizhi Song, and You Wang*, “Wavelength-tunable passively mode-locked all-fiber laser at 1.5 μm,” Applied Optics 58(19), 5143-5147, 2019. (By @ and $$)

49. Heng Zhou(#), Yong Geng (#), Wenwen Cui, Shu-Wei Huang, Qiang Zhou, Kun Qiu, and Chee Wei Wong*, “Soliton bursts and deterministic dissipative Kerr soliton generation in auxiliary-assisted microcavities,” Light: Science & Applications 8, 50, 2019. (By @)

48. Rui-Bo Jin(#), Neng Cai, Ying Huang, Xiang-Ying Hao, Shun Wang, Fang Li, Hai-Zhi Song, Qiang Zhou*, and Ryosuke Shimizu, “Theoretical investigation of a spectrally pure-state generation from isomorphs of KDP crystal at near-infrared and telecom wavelengths,” Physical Review Applied 11, 034067 (2019). (By @ and @@)

47. Qiang Zhou*(#), Raju Valivarthi, Caleb John and Wolfgang Tittel, “Practical quantum random number generator based on sampling vacuum fluctuations,” Quantum Engineering DOI:10.1002/que2.8, published online on 13 March, 2019. (By @ and %)

2018

46. Yan Li(#), Shu-Xiao Li, Hai-Ou Li*, Guang-Wei Deng, Gang Cao, Ming Xiao, and Guo-Ping Guo*, “Charge noise acting on graphene double quantum dots in circuit quantum electrodynamics architecture,” Chin. Phys. B 27(7), 076105, 2018. (By @ and &)

45. Xinhe Wang(#), Dong Zhu(#), Xinhe Yang, Long Yuan, Haiou Li, Jiangtao Wang, Mo Chen, Guangwei Deng, Wenjie Liang, Qunqing Li, Shoushan Fan, Guoping Guo*, and Kaili Jiang* “Stressed carbon nanotube devices for high tunability, high quality factor, single mode GHz resonators,” Nano Research 11(11): 5812–5822, 2018.(By & and $)

44. Bin Li(#), Qiang Zhou*, Ruiming Zhang, Junyi Li, Heng Zhou, Hao Li, Yun Ling, Yunxiang Wang, Guangwei Deng, You Wang, Lin Shi, Kun Qiu, and Haizhi Song, “Cost-effective high spatial resolution photon-counting OTDR at 850 nm,” Applied Optics 57(30), 8824-8828, 2018. (By @ and $$)

43. H. Z. Song, L. B. Yu and Zh. M. Wang, “Micropillar Cavity Design for 1.55-mm Quantum-Dot Single-Photon Sources”, J. Electron. Sci Tech DOI: 10.11989/JEST.1674-862X.71027010, 2018 (By @ and $$)

42. M. R. Noweir(#), Qiang Zhou*, R. Valivarthi, A. Kwan, M. Helaoui, W. Tittel* and F. Ghannouchi*, “Digitally Linearized Radio-over-Fiber Transmitter Architecture for Cloud Radio Access Network’s Downlink,” IEEE Transactions on Microwave Theory and Techniques 66(7), 3564 – 3574, 2018. (By @ and %)

41. Gang Luo(#), Zhuo-Zhi Zhang, Guang-Wei Deng*, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Lin Tian* and Guo-Ping Guo*, “Strong Raman-like coupling between graphene-based mechanical resonators via a phonon cavity,” Nature Communications 9, 383, 2018. (By &)

2017

40. Xiumin Xie(#), Qiang Xu, Bizhou Shen, Jian Chen, Qian Dai, Zhu Shi, Libo Yu, Zhiming M Wang and Hai-Zhi Song*, “InGaAsP/InP Micropillar Cavities for 1.55 μm Quantum-Dot Single Photon Sources”, Journal of Physics: Conference Series 844(1), 012002, 2017. (By @ and $$)

39. Weiwu Chen(#), Zhaojun Qin, Yingkai Liu, Yan Zhang, Yanbo Li, Si Shen, Zhiming M. Wang, and Hai-Zhi Song*, ” Promotion on Acetone Sensing of Single SnO2 Nanobelt by Eu Doping”, Nanoscale Research Letters 12, 405, 2017. (By @ and $$)

38. Hai-Zhi Song(#), Mukhtar Hadi, Yanzhen Zheng, Bizhou Shen, Lei Zhang, Zhilei Ren, Ruoyao Gao, and Zhiming M. Wang, “InGaAsP/InP Nanocavity for Single-Photon Source at 1.55-μm Telecommunication Band”, Nanoscale Research Letters 12, 128. DOI: 10.1186/s11671-017-1898-y, 2017(By @ and $$)

37. Marcel. li Grimau Puigibert (#), Gabriel H. Aguilar, Qiang Zhou, Francesco Marsili, M. D. Shaw, V. B. Verma, S. W. Nam, Daniel Oblak* and Wolfgang Tittel, “Heralded single photons based on spectral multiplexing and feed-forward control,” Physical Review Letters 119, 083601, 2017. (By @ and %)

36. Raju Valivarthi (#), Qiang Zhou*, Caleb John, Francesco Marsili, Varun B. Verma, Matthew D. Shaw, Sae Woo Nam, Daniel Oblak and Wolfgang Tittel, “A cost-effective measurement-device-independent quantum key distribution system for quantum networks,” Quant. Sci. Tech. 2, 04LT01, 2017. (By @ and %)

35. Zhuo-Zhi Zhang (#), Xiang-Xiang Song, Gang Luo, Guang-Wei Deng*, Vahid Mosallanejad, Takashi Taniguchi, Kenji Watanable, Hai-Ou Li, Gang Cao, Guang-Can Guo, Franco Nori, Guo-Ping Guo*, “Electro-tunable artificial molecules based on van der Waals heterostructures,” Science Advances 3, e1701699, 2017. (By &)

34. Gang Luo (#), Zhuo-Zhi Zhang, Guang-Wei Deng*, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Guo-Ping Guo*, “Coupling graphene nanomechanical motion to a single-electron transistor,” Nanoscale 9, 5608, 2017. (By &)

33. Gang Luo (#), Zhuo-Zhi Zhang, Hai-Ou Li, Xiang-Xiang Song, Guang-Wei Deng, Gang Cao, Ming Xiao, Guo-Ping Guo, “Quantum dot behavior in transition metal dichalcogenides nanostructures,” Frontiers of Physics 12, 128502, 2017. (By &)

32. Dong Zhu (#), Xin-He Wang, Wei-Cheng Kong, Guang-Wei Deng Jiang-Tao Wang, Hai-Ou Li, Gang Cao, Ming Xiao, Kai-Li Jiang, Xing-Can Dai, Guang-Can Guo, Franco Nori, Guo-Ping Guo*, “Coherent phonon Rabi oscillations with a high frequency carbon nanotube phonon cavity,” Nano Letters 17, 915, 2017. (By &)

2016

31. Raju Valivarthi(#), Marcel. li Grimau Puigibert(#), Qiang Zhou(#), Gabriel H. Aguilar(#), V. B. Verma, Francesco Marsili, M. D. Shaw,S. W. Nam, Daniel Oblak and Wolfgang Tittel*, “Quantum teleportation across a metropolitan fibre network,” Nature Photonics 10, 676 – 680, 2016. (By %)

30. Erhan Saglamyurek(#), Marcel. li Grimau Puigibert, Qiang Zhou, Lambert Giner, Francesco Marsili, V. B. Verma, S. W. Nam, Lee Oesterling, David Nippa, Daniel Oblak and Wolfgang Tittel*, “A multiplexed light-matter interface for fibre-based quantum networks,” Nature Communications 7, 11202, 2016. (By %)

29. Guang-Wei Deng(#), Dong Zhu, Xin-He Wang, Chang-Ling Zou, Jiang-Tao Wang, Hai-Ou Li, Gang Cao, Di Liu, Yan Li, Ming Xiao, Guang-Can Guo, Kai-Li Jiang, Xing-Can Dai, Guo-Ping Guo*, “Strongly coupled nanotube electromechanical resonators,” Nano Letters 16, 5456, 2016. (By &)

28. Shu-Xiao Li(#), Dong Zhu, Xin-He Wang, Guang-Wei Deng*, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Kai-Li Jiang, Xing-Can Dai, Guo-Ping Guo*, “Parametric strong mode-coupling in carbon nanotube mechanical resonators,” Nanoscale 8, 14809, 2016. (By &)

27. Qiang Zhou*(#), J. Liu, Y. Gu, F. Fan, Y. Wang and B. Xu, “Gain-switched semiconductor pulse laser for quantum secure communication,” Chinese Journal of Lasers 43(5), 0502005, 2016. (By @)

26. Tian-Yi Han(#), Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Guo-Ping Guo*, “Multiplexing Readout of Charge Qubits by a Superconducting Resonator,” Chinese Physics Letters 34, 047301, 2016. (By &)

2015

25. Guang-Wei Deng(#), Da Wei, J.  R Johansson, Miao-Lei Zhang, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Ming Xiao, Tao Tu, Guang-Can Guo, Hong-Wen Jiang, Franco Nori, Guo-Ping Guo*, “Charge Number Dependence of the Dephasing Rates of a Graphene Double Quantum Dot in a Circuit QED Architecture,” Physical Review Letters 115, 126804, 2015. (By &)

24. Guang-Wei Deng(#), Da Wei, Shu-Xiao Li, JR Johansson, Wei-Cheng Kong, Hai-Ou Li, Gang Cao, Ming Xiao, Guang-Can Guo, Franco Nori, Hong-Wen Jiang, Guo-Ping Guo*, “Coupling two distant double quantum dots with a microwave resonator,” Nano Letters 15, 6620, 2015. (By &)

23. R. Valivarthi(#)I. L.-MartinezP. Chan, A. RubenokC. JohnD. KorchinskiC. Duffin, F. MarsiliV. VermaM.-D. ShawJ.-A. SternS.-W. NamD. OblakQiang ZhouJ.-A. SlaterW. Tittel*, “Measurement-device-independent quantum key distribution: from idea towards application,” Journal of Modern Optics 62(14), 1141-1150, 2015. (By %)

22. Wei-Cheng Kong(#), Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Ming Xiao, Guo-Ping Guo*, “Introduction of DC line structures into a superconducting microwave 3D cavity,” Review of Scientific Instruments 86, 023108, 2015. (By &)

21. Jie You(#), Hai-Ou Li, Gang Cao, Guang-Wei Deng, Ming Xiao, Guo-Ping Guo*, “Measuring the coherence of charge states in undoped GaAs/AlGaAs double quantum dots with photon-assisted tunneling,” Europhysics Letters 111, 17001, 2015. (By &)

2014 

20. Qiang Zhou(#), S. Dong, W. Zhang*, L.-X. You, Y.-H. He, W.-J. Zhang, Y.-D. Huang and J.-D. Peng, “Frequency-entanglement preparation based on the coherent manipulation of frequency nondegenerate energy-time entangled state,” Journal of the Optical Society of America B 31(8): 1801-1806, 2014. (By $)

19. S. Dong(#), Qiang Zhou, W. Zhang*, L.-X. You, Y.-H. He, W.-J. Zhang, Y.-D. Huang and J.-D. Peng, “Energy-time entanglement generation in optical fibres under CW pumping,” Optics Express 22(1): 359-368, 2014. (By $)

18. Qiang Zhou*(#), W. Zhang*, C.-Z. Yuan, Y.-D. Huang and J.-D. Peng, “Generation of 1.5 μm discrete frequency-entangled two-photon state in polarization-maintaining fibres,” Optics Letters 39(7): 2109-12, 2014. (By $)

17. Miao-Lei Zhang(#), Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Irfan Siddiqi, Guo-Ping Guo*, “Symmetric reflection line resonator and its quality factor modulation by a two-dimensional electron gas,” Applied Physics Letters 104, 083511, 2014. (By &)

16. Miao-Lei Zhang(#), Da Wei, Guang-Wei Deng, Shu-Xiao Li, Hai-Ou Li, Gang Cao, Tao Tu, Ming Xiao, Guang-Can Guo, Hong-Wen Jiang, Guo-Ping Guo*, “Measuring the complex admittance of a nearly isolated graphene quantum dot,” Applied Physics Letters 105, 073510, 2014. (By &)

15. Yuan Guo(#), W. Zhang*, N. Lv, Qiang Zhou, Y.-D. Huang and J.-D. Peng, “The impact of nonlinear losses in the silicon micro-ring cavities on CW pumping correlated photon pair generation,” Optics Express 22(3): 2620-2631, 2014. (By $)

2013

14. N. Lv(#), W. Zhang*, Y. Guo, Qiang Zhou, Y.-D. Huang and J.-D. Peng, “1.5 μm polarization entanglement generation based on birefringence in silicon wire waveguides,” Optics Letters 38(15), 2873-2876, 2013. (By $)

13. T.-Y. Ma(#), Qiang Zhou, W. Zhang*, Y.-D. Huang, X.-W. Cui, M.-Q. Lu and B.-K. Zhou, “1.5 μm orthogonally polarized dual-output heralded single photon source based on optical fibres with birefringence,” Optics Express 21(13), 15364-15372, 2013. (By $)

12. Qiang Zhou(#), W. Zhang*, T.-Z. Niu, S. Dong, Y.-D. Huang and J.-D. Peng, “A polarization maintaining scheme for 1.5 μm polarization entangled photon pair generation in optical fibres,” Eur. Phys. J. D 67(9), 1-6, 2013. (By $)

11. N. Lv(#), W. Zhang*, Y. Guo, Qiang Zhou, Y.-D. Huang and J.-D. Peng, “End-output coupling efficiency measurement of silicon wire waveguides based on correlated photon pair generation,” Chinese Phys. Lett. 30, 074205, 2013. (By $)

2012

10. Qiang Zhou(#), W. Zhang*, P.-X. Wang, Y.-D. Huang and J.-D. Peng, “Polarization entanglement generation at 1.5 μm based on walk-off effect due to fibre birefringence,” Optics Letters 37(10), 1679-1681, 2012. Selected by VJQI. (By $)

9. P.-X. Wang(#), Qiang Zhou, W. Zhang*, Y.-D. Huang and Peng Jiang-De, “High-quality fibre-based heralded single-photon source at 1.5 μm,” Chinese Phys. Lett. 29, 054215, 2012. (By $)

2011

8. J.-R. Cheng(#), W. Zhang*, Qiang Zhou, Y. Wang, Y.-D. Huang and J.-D. Peng, “Single polarization transmission in pedestal-supported silicon waveguides,” Optics Letters 36(10), 1797-1799, 2011. (By $)

7. Qiang Zhou(#), W. Zhang*, J.-R. Cheng, Y.-D. Huang and J.-D. Peng, “Properties of all-fibre devices based 1.5 μm synchronous heralded single photon sources,” Physics Letter A 375, 2274-2277, 2011. (By $)

2010

6. W. Zhang*(#), Qiang Zhou, J.-R. Cheng, Y.-D. Huang and J.-D. Peng, “Impact of fibre birefringence on correlated photon pair generation in highly nonlinear microstructure fibres,” Eur. Phys. J. D 59, 309-316, 2010. (By $)

5. Qiang Zhou(#), W. Zhang*, J.-R. Cheng, Y.-D. Huang and J.-D. Peng, “Noise performance comparison of 1.5 μm correlated photon pair generation in different fibres,” Optics Express 18(16), 17114-17123, 2010. (By $)

4. G.-Y. Zhang(#), Qiang Zhou, K.-Y. Cui, W. Zhang and Y.-D. Huang*, “Time-domain measurement of optical true-time delay in two-dimensional photonic crystal waveguides,” Chinese Phys. Lett. 27, 114212, 2010. (By $)

3. J.-R. Cheng(#), W. Zhang*, Qiang Zhou, X. Feng, Y.-D. Huang and J.-D. Peng, “Correlated photon pair generation in silicon wire waveguides at 1.5 μm,” Chinese Phys. Lett. 27, 124208, 2010. (By $)

2009

2. S.-T. Zhang(#), W. Zhang*, Qiang Zhou, Y.-D. Huang and J.-D. Peng, “Experimental study on preparation efficiency of microstructured-fibre based heralded single-photon source at 1.5 μm,” Chinese Phys. Lett. 26, 034206, 2009. (By $)

1. Qiang Zhou(#), W. Zhang*, J.-R. Cheng, Y.-D. Huang and J.-D. Peng, “Polarization entangled Bell states generation based on birefringence in high nonlinear microstructure fibre at 1.5 μm,” Optics Letters 34(18), 2706-2708, 2009. Selected by VJQI. (By $)