Publication

2025

[86] S. Liu, S. Y. Wang, Y. Saleem,  X. Li, H. Liu, C. Yang,  J. Yang, H. Ni, Z. Niu, Y. Meng, X. Hu, Y. Ying, X. Wang, M. Cygorec and J. Liu*,  "Quantum correlations of spontaneous two-photon emission from a quantum dot", Nature (2025). https://doi.org/10.1038/s41586-025-09267-6 

[85] J. Ma, J. Yang, J. Liu, B. Chen, C. Song, G. Qiu, K. Zou, X. Hu, F. Li, Y. Ying* and J. Liu*,  "Nanophotonic quantum skyrmions enabled by semiconductor cavity quantum electrodynamics", Nature Phys. (2025). https://doi.org/10.1038/s41567-025-02973-y

[84] Y. Chen*, X. Li, S. Liu, J. Yang, Y. Wei, K. Xiong, Y. Wang, P. Chen, X. Li, C. Zhang, Y. Yu, T. Jiang* and J. Liu*, "In situ three-dimensional strain engineering of solid-state quantum emitters in photonic structures towards scalable quantum networks", Nature Commun. 16 5564 (2025). 

[83] M. Rao, J. Yang, C. Song, P. Wang, F. Wang, S. Liu, Y. Bie, J. Liu, Y. Ying* and S. Yu, "Chiral Single Photon Routing via Cavity-Assisted Spin-Momentum Locking", Nano Lett. https://doi.org/10.1021/acs.nanolett.5c02598

[82] R. Wu, B. Chen*, D. Liu, G. Qiu, D. Wei and J. Liu "Revealing Resonant Mode Properties in Asymmetric Photonic Crystal Microrings through Diverse Excitation Methods", Nano Lett. 25 9501 (2025).

[81] L. Song, Z. Zhu, Y. Wang, D. Wei* and J. Liu* "Single-shot miniaturized spectrometer without lithography", Sci. Bull. 70 1918 (2025).

2024

[80] X. Wang, Z. Liu*, B. Chen, G. Qiu, D. Wei* and J. Liu "Experimental Demonstration of High-Efficiency Harmonic Generation in Photonic Moiré Superlattice Microcavities", Nano. Lett. 24 11327 (2024).

[79] Z. Liu*, B. Chen, X. Wang, G. Qiu,  Q. Cao, D. Wei* and J. Liu "Enhanced vertical second harmonic generation from layered GaSe coupled to photonic crystal circular Bragg resonators", Nanophotonics 13 4029 (2024).

[78] B. Yao, R. Su, S. Liu, S. C. K. Song, Y. Yu, J. Liu* and X. Wang*  "Effective integration of highly-efficient focusing apodized grating and quantum dots on a solid substrate for scalable quantum photonic circuits", Sci. China Phys. Mech. Astron. 67 294212 (2024). 

[77] B. Chen, S. Wu, Y. Ren, X. Wang, D. Wei* and J. Liu, "Nonlinear Photon Generations from Subwavelength Whispering-Gallery-Mode Resonator", Nano. Lett. 24 7467 (2024). 

[76] S. Liu, X. Li, H. Liu, G. Qiu, J. Ma, L. Nie, Z. Niu, Y.Meng. X. Hu, Z. Niu, C. W. Qiu, X. Wang* and J. Liu*, "Super-resolved snapshot hyperspectral imaging of solid-state quantum emitters for high-throughput integrated quantum technologies", Nature Photon. 18 967(2024). 

[75] B. Chen, Y. Zhou, Y. Liu, C. Ye, Q. Cao, P. Huang, C. Kim, Y. Zheng, L. K. Oxenløwe, K. Yvind, J. Li, J. Li, Y. Zhang, C. Dong, S. Fu, Q. W. Zhan*, X. Wang*, M. Pu* and J. Liu*, "Integrated Optical Vortex Microcomb", Nature Photon. 18 625 (2024). 

[74] S. Liu, C. Gustin, H. Liu, X. Li, Y. Yu, H. Ni, Z. Niu, S. Hughes. X. Wang* and J. Liu*, "Dynamic resonance fluorescence in solid-state cavity quantum electrodynamics", Nature Photon. 18 318 (2024). 

[73] H. Liu, S. Li, X. Shang, J. Huang, S. Liu, X. Su, B. Sun, D. Dai, Y. Zhang, B. Liu, J. Liu, H. Ni and  Z. C. Niu, "Broadband enhancement and high extraction efficiency from single quantum dots embedded in microlenses coupled with a gold mirror", Appl. Phys. Lett. 124 041102 (2024).

2023

[72] K. Xiong, X. Li, Y. Wei, W. Wu, C. Zhang, J. Liu, Y. Chen and P. Chen, "Efficient generation of single photons by quantum dots embedded in bullseye cavities with backside dielectric mirrors", Opt. Express 31 19536 (2023).

[71]G, Qiu, D. Wei, Z. Liu* and J. Liu, "Enhancement of spontaneous emission from CdSe/ZnS quantum dots through silicon nitride photonic crystal cavity based on miniaturized bound states in the continuum", Nanoscale15 3757 (2023).

[70]Y. Gao, S. Sun, D. Qiu, Y.-M. Wei, M. Zhang, J. Liu, P. K. Chu, W.-L. You, J. Li*, "Hybrid Interfacial Engineering: An Enabling Strategy for Highly Sensitive and Stable Perovskite Quantum Dots/Organic Heterojunction Phototransistors", ACS Photon. 10 764 (2023).

[69] X. Kong, Z. Liu*, L. Song, G. Qiu, X. Wang, J. Ma, D. Wei*, and J. Liu, "Doubly resonant second-harmonic generation in a fiber-based tunable open microcavity," Chin. Opt. Lett. 21 111901 (2023).

[68] Y. Yu, S. Liu,  CM. Lee, P. Michler, S. Reitzeinstein, K. Srinivasan, E. Waks and J. Liu* "Telecom-band quantum dot technologies for long-distance quantum networks". Nature Nano. 18 1389 (2023).

[67] P. Huang, B. Chen, D. Xia, Z. Li, B. Zhang*. D. Wei*, Z. Li and J. Liu, "Integrated Reconfigurable Photon-Pair Source Based on High-Q Nonlinear Chalcogenide Glass Microring Resonators", Nano Lett. 23 4487 (2023)

[66] X. Li, S. Liu, Y. Wei, C. Song, Y. Yu, R. Su, W. Geng, H. Ni, X. Su, Z. Niu*, Y. Chen* and J. Liu*, "Bright semiconductor single-photon sources pumped by heterogeneously integrated micropillar lasers with electrical injections", Light Sci. Appl. 12 65 (2023). 

[65]  X. Y. Zhou*, L. Zhai* and J. Liu, "Epitaxial quantum dots: a semiconductor launchpad for photonic quantum technologies", Photonics Insights 1 R07 (2023).

[64] Z. Li, Z. Liu*, M. Panmai, S. Li, J. Liu, S. Lan*, "Modifying the Quality Factors of the Bound States in the Continuum in a Dielectric Metasurface by Mode Coupling", ACS Photon. 10 206 (2023).

2022

[63] T. Jin, X. Li, R. Liu, W. Ou, Y. Zhu, X. Wang, J. Liu, Y. Huo, X. Ou*, J. Zhang*, "Generation of polarization-entangled photons from self-assembled quantum dots in a hybrid quantum photonic chip", Nano Lett. 22 586 (2022).

[62] J. Liu "Boost the sensitivity of optical sensors with interface modes", Sci. Bull. 67 777 (2022).

[61]  Z. Li, L. Zhou, Z. Liu*, M. Panmai, S. Li, J. Liu and S. Lan*, "Modifying the Quality Factors of the Bound States in the Continuum in a Dielectric Metasurface by Mode Coupling", ACS Photon. 10 206 (2022).

[60] Y. Ren, P. Li, Z. Liu, Z. Chen, Y. -L .Chen*, C. Peng* and J. Liu, "Low-threshold nanolasers based on miniaturized bound states in the continuum", Sci. Adv. 8 eade8817 (2022).

[59] X. Li, J. Ma, S. Liu, P. Huang, B. Chen, D. Wei* and J. Liu*, "Efficient second harmonic generation by harnessing bound states in the continuum in semi-nonlinear etchless lithium niobate waveguides", Light Sci. Appl. 11 317 (2022). 

[58]  Y. Wang, Y. Ren, X. Luo, B. Li, Z. Chen, Z.i Liu, F. Liu, Y. Cai, Y. Zhang, J. Liu and F. Li*,  "Manipulating cavity photon dynamics by topologically curved space", Light Sci. Appl. 11 308 (2022).

[57] J. Liu* et al.,  "Emerging material platforms for integrated microcavity photonics", Sci. China Phys. Mech. Astron. 65 104201 (2022).

[56] S-W Xu, Y-M Wei, R-B Su, X-S Li, P-N Huang, S-F Liu, X-Y Huang, Y Yu, J Liu*, and X-H Wang, “Bright single-photon sources in the telecom band by deterministically coupling single quantum dots to a hybrid circular Bragg resonator”, Photon. Res. 10 B1-B6 (2022).

[55] Y. Wei, S. Liu, X. Li, Y. Yu, X. Su, S. Li, S. Xiang, H. Liu, H. Hao, H. Ni, S. Yu, Z. Niu, J. I. Smith, J. Liu* and X. Wang, “Tailoring solid-state single-photon sources with stimulated emissions”, Nature Nano. 17 470 (2022).

[54] E. Pelucchi, G. Fagas, I. Aharonovich, D. Englund, E. Figueroa, Q. Gong, H. Hannes, J. Liu, C.-Y. Lu, N. Matsuda, J.-W. Pan, F. Schreck, F. Sciarrino, C. Silberhorn, J. Wang and K. D. Jöns, “The potential and global outlook of integrated photonics for quantum technologies”, Nat. Rev. Phys. 4 194 (2022).

2021

[53] N. Bernhardt, S. Kim, J. E. Fröch, S. JU White, N. M. H. Duong, Z. He, B. Chen, J. Liu, I. Aharonovich and A. S. Solntsev, "Large few-layer hexagonal boron nitride flakes for nonlinear optics", Opt. Lett. 46 564 (2021).

[52] Y. Hua, Y. Wei, B. Chen, B. Z. Liu, Z. He, Z. Xing, S. Liu, P. Huang, Y. Chen, Y. Gao. and J. Liu*, "Directional and Fast Photoluminescence from CsPbI₃ Nanocrystals Coupled to Dielectric Circular Bragg Gratings", Micromachines  12 422 (2021).

[51] I. S. Sinev et al., "Observation of Ultrafast Self-Action Effects in Quasi-BIC Resonant Metasurfaces". Nano Lett. 21, 8848 (2021).

[50] J. Y. Wang, Z. J. Liu*, J. Xiang, B. Chen, Y. M. Wei, W. J Liu, Y. Xu, S. Lan and J. Liu "Ultraviolet second harmonic generation from Mie-resonant lithium niobate nanospheres", Nanophotonics 10 4273 (2021).

[49] S. F. Liu, K. Srinivasan and J. Liu*, “Nanoscale Positioning Approaches for Integrating Single Solid-State Quantum Emitters with Photonic Nanostructures”, Laser Photonics Rev. 2100223 (2021).

[48] Z. J. Liu, J. Y. Wang, B. Chen, Y. M. Wei*, W. J. Liu and J Liu*, “Giant Enhancement of Continuous Wave Second Harmonic Generation from Few-Layer GaSe Coupled to High-Q Quasi Bound States in the Continuum”, Nano Lett. 21 7405 (2021).

[47] S. F. Liu, Y. M. Wei, X. H, Li, Y. Yu*, J. Liu*, S. Y. Yu and X. H. Wang, “Dual-resonance enhanced quantum light-matter interactions in deterministically coupled quantum-dot-micropillars”, Light Sci. Appl. 10 158 (2021).

[46] Y. H Gao*, Y. S Ge, X. W Wang, J. Liu, W. Q Liu, Y. Cao, K. Chen, G. Z. Guo, Y. M. Wei, N Zhou, D. Y, H Meng, X. F. Yu, H. R Zheng, W. Huang* and J Li*, “Ultrathin and Ultrasensitive Direct X-ray Detector Based on Heterojunction Phototransistors”, Adv. Mater. 33 2101717 (2021).

[45] B. Chen, Y. M. Wei, T. M. Zhao, S. F. Liu, B. M Yao, Y. Yu, J. Liu* and X. H. Wang*, “Bright solid-state sources for single photons with orbital angular momentum”, Nature Nano. 16 302 (2021).

2020

[44] B. Chen, Z. He, Z.Liu, Y. Wang, Y. Gao, I. Aharonovich, Z. Xu* and J. Liu* "Simultaneously enhanced linear and nonlinear photon generations from WS2 by using dielectric circular Bragg resonators", Nanophotonics 9 2587 (2020).

[43]  Z. He,  B. Chen,  Y. Hua,  Z. Liu,  Y. Wei,  S. Liu,  A. Hu,  X. Shen,  Y. Zhang*, Y. Gao* and  J. Liu* "CMOS Compatible High‐Performance Nanolasing Based on Perovskite–SiN Hybrid Integration", Adv. Optical Mater. 8 2000453 (2020).

[42] Y. Lin, T. Feng, S. Lan, J. Liu and Y. Xu* "On-Chip Diffraction-Free Beam Guiding beyond the Light Cone", Phys. Rev. Applied 13 064032 (2020).

[41] Z. Huang, Y. Liu, K. Dini, Q. Tan, Z. Liu, H. Fang, J. Liu, T. Liew and W. Gao* "Robust Room Temperature Valley Hall Effect of Interlayer Excitons", Nano Lett. 20 1345 (2020).

[40]  Y. Wei, T. Zhao, B. Yao, R. Su, Y. Yu*, J. Liu* and X. Wang, "Bright and highly-polarized single-photon sources in visible based on droplet-epitaxial GaAs quantum dots in photonic crystal cavities", Opt. Mater. Express. 10 170 (2020).

2019

[39] Z. Liu, Y Xu*, Y. Lin,  Xiang, T. Feng, Qi. Cao, J. Li, S. Lan and J. Liu*, "High-Q quasibound states in the continuum for nonlinear metasurfaces", Phys. Rev. Lett.123 253901 (2019).

[38] T. Zhao, Y. Chen, Y. Yu*, Q Li, M. Davanco* and J. Liu*, "Advanced Technologies for Quantum Photonic Devices Based on Epitaxial Quantum Dots", Adv. Quantum Technol. 190034 (2019).

[37] Y. Yu*, H. Zhong, J. Yang, L. Liu, J. Liu* and S. Yu, "Highly uniform and symmetric epitaxial InAs quantum dots embedded inside Indium droplet etched nanoholes" Nanotechnology 30 485001 (2019).

[36] Z. He, J. Yang, L. Zhou, Y. Chen, T. Zhao*, Y. Yu* and J. Liu, "Broadband photonic structures for quantum light sources" J. Semicond. 40 071905 (2019).

[35] Y. Liu, H. Fang, A. Rasmita, Y. Zhou, J. Li, T. Yu, Q. Xiong, N. Zheludev*, J. Liu* and W. Gao*, “Room temperature nanocavity laser with interlayer excitons in 2D heterostructures”, Sci. Adv.  5 eaav4506 (2019).

[34]A, Singh, Q. Li, S. F. Liu, Y, Yu, X. Y. Lu, C. Schneider, S, Hoefling, J. Lawall, V. Verma, R. Mirin, S. W. Nam, J. Liu* and K. Srinivasan* “Quantum frequency conversion of a quantum dot single-photon source on a nanophotonic chip”, Optica  6 563 (2019).

[33] J. Liu, R. Su, Y. Wei, B. Yao, S. F. D. Da. Silva, J. I. Smith, A. Rastelli, J. Li and X. Wang, "A solid-state source of strongly entangled photon pairs with high brightness and indistinguishability", Nature Nano. 14 586 (2019).

2018

[32] R. Su, S. Liu, Y. Wei, Y. Yu*, J. Liu*, S. Yu, X. Wang, “Bright and pure single-photons from quantum dots in micropillar cavities under up-converted excitation”, Sci. Bull., 63 739 (2018).

[31 ] B. Yao, R. Su, Y. Wei, Z. Liu, T. Zhao and J. Liu, J. Korean Phys. Soc. 73, 1502 (2018).

[30] H. L. Fang, J. Liu, H. J. Li, L. D. Zhou, L. Liu, J. T. Li, X. H. Wang, T. F. Krauss, and Y. Wang, "1305 nm Few-Layer MoTe2-on-Silicon Laser-Like Emission", Laser & Photon. Rev. 12. 1800015 (2018),

[29] N. M. H. Duong, Z. Q. Xu*, M. Kianinia, R. B.~Su, Z. J. Liu, S. Kim, C. Bradac, T. T. Tran, Y. Wan, L. J  Li, A. Solntsev, J. Liu* and Igor Aharonovich, “Enhanced Emission from WSe2 Monolayers Coupled to Circular Bragg Gratings” ACS Photonics. 5 3950 (2018).

[28] J. Liu*,  K. Konthasinghe, M. Davanço, J. Lawall, V. Anant, V. Verma, R. Mirin, S. W. Nam, J. D. Song, B. Ma, Z. S. Chen, H. Q. Ni, Z. C. Niu and K. Srinivasan, “Single Self-Assembled InAs/GaAs Quantum Dots in Photonic Nanostructures: The Role of Nanofabrication”, Phys. Rev. Applied 9, 064019 (2018).

2017

[27] C. Y. Zhang, Y. Xu, J. Liu, J. T. Li, J. X, H. Li, J. X Li, Q. F. Dai, S. Lan and A. E. Miroshnichenko, “Lighting up silicon nanoparticles with Mie resonances” Nature Commun. 9 2964 (2017).

[26] Y. M. He, J. Liu*, S. Maier, M. Emmerling, S. Gerhardt, M. Davanco, K. Srinivasan, C. Schneider and S. Höfling, “Deterministic implementation of a bright, on-demand single photon source with near-unity indistinguishability via quantum dot imaging”, Optica 4 802 (2017).

[25] M. Davanco*, J. Liu*, L. Sapienza, C. Z. Zhang, J. V. D. M. Cardoso, V. Verma, R. Mirin, S. W. Nam, L. Liu and K. Srinivasan*, “A heterogeneous III-V/silicon integration platform for on-chip quantum photonic circuits with single quantum dot devices”, Nature Commun. 8 889 (2017).

[24] J. Liu*, M. Davanco*, L. Sapienza, K. Konthasinghe, J. V. D. M. Cardoso, J. D. Song, A. Badolato and K. Srinivasan*, “Cryogenic photoluminescence imaging system for nanoscale positioning of single quantum emitters”, Rev. Sci. Instrum. 88, 023116 (2017).

[23] R. S. Daveau, K. C. Balram, T. Pregnolato, J. Liu, E. H. Lee, J. D. Song, V. Verma, R. Mirin, S. W. Nam, L. Midolo, S. Stobbe, K. Srinivasan, and . Lodahl, "Efficient fiber-coupled single-photon source based on quantum dots in a photonic-crystal waveguide," Optica 4, 178-184 (2017).

[22] L Sapienza, J Liu, JD Song, W Wegscheider, A Badolato and K Srinivasan, “Combined atomic force microscopy and photoluminescence imaging to select single InAs/GaAs quantum dots for quantum photonic devices”, Sci. Rep. 7 6205 (2017).

[21] Z. P. Zhou.  J. T. Li, R. B. Su. B. M. Yao, H. L. Fang,  K. Z. Li, L. D. Zhou, J. Liu, D. Stellinga, C. Readon,  T. F. Krauss, and W. H. Wang, " Efficient Silicon Metasurfaces for Visible Light", ACS photonics., 4. 544 (2017).

[20] Y. Y. Ou, D. Iida, J. Liu, K. Y., Wu, K. Ohkawa, A. Boisen, P. M. Petersen, and H. Y. Ou, “Efficiency enhancement of InGaN amber MQWs using nanopillar structures”, Nanophotonics 7 317 (2017).

-----------------------------------------------------------------------------Prior to SYSU-----------------------------------------------------------------------------

2015

[19] Y. He, Y.-M. He, J. Liu*, Y.-J. Wei, H. Ramirez, M. Atatüre, C. Schneider, M. Kamp, S. Höfling, C.-Y. Lu*, J.-W. Pan*, Dynamically controlled resonance fluorescence from a doubly dressed single InGaAs quantum dot. Phys. Rev. Lett. 114, 097402 (2015).

2014

[18] K. H. Madsen, S. Ates, J. Liu A. Javadi and P. Lodahl, "Efficient out-coupling of high-purity single photons from a coherent quantum dot in a photonic-crystal cavity," Phys. Rev. B 90 (15), 155303 (2014).

[17] J. Liu, P. D. Garcia, S. Ek, N. Gregersen, T. Suhr, M. Schubert, J. Mørk, S. Stobbe and P. Lodah, "Random nanolasing in the Anderson localized regime," Nature Nanotechnology  9,  285 (2014).

[16] J. Liu, X Zhou, Z Qiao, J Zhang, C Zhang, T Xiang, L Shui, Y Shi and L Liu, “Integrated optical chemical sensor based on an SOI ring resonator using phase-interrogation”, IEEE Photonics J. 6, 1 (2014).

[15] M. Arcari, I. Sollner, A. Javadi, S. L. Hansen, J. Liu, H. T. Nielson, E. H. Lee, J. D. Song, S. Stobbe and P. Lodahl, "Near-unitary coupling efficiency of a quantum emitter to photonic crystal waveguide," Phys. Rev. Lett. 113 (9), 093603 (2014).

2013

[14] P. F. Zhu, Z. B. Lin, Q. Y. Ning, Z. R. Cai, X. B. Xing, J. Liu, W. C. Chen, Z. C. Luo, A. P. Luo, and W. C. Xu, “Passive harmonic mode-locking in a fiber laser by using a microfiber-based graphene saturable absorber,” Laser Phys. Lett.10, 105107 (2013).

[13] Zhi-Chao Luo, Qiu-Yi Ning, Hai-Lan Mo, Hu Cui, Jin Liu, Li-Jun Wu, Ai-Ping Luo, and Wen-Cheng Xu, "Vector dissipative soliton resonance in a fiber laser," Opt. Express 21, 10199 (2013). 

[12] J. Liu, S. Ates, S. Stobbe, M. Lorke and P. Lodahl, "Influence of multi-electronic states on few-quantum-dot nanolasers," Optics Express 21 285507 (2013).

2012

[11] K. Usami, A. Naesby, T. Bagci, B. M. Nielsen, J. Liu, S. Stobbe, P. Lodahl, and E. S. Polzik, "Optical cavity cooling of mechanical modes of a semiconductor nanomembrane," Nature Physics 8, 168 (2012).

2011

[10J. Liu, K. Usami, A. Naesby, T. Bagci, E. S. Polzik, P. Lodahl, and S. Stobbe, "High-Q optomechanical GaAs nanomembranes," Appl. Phys. Lett. 99, 243102 (2011).

2010

[9] J. Liu, Q.-F. Dai, S. Lan, A. V. Gopal and V. A. Trofimov, “Optical switching based on the manipulation of microparticles in a colloidal liquid using strong scattering force,” Chinese Phys. B 19 124209 (2010).

[8] Q.-F. Dai, H.-D. Deng, W.-R. Zhao, J. Liu, L.-J. Wu, S. Lan and A. V. Gopal, 2010. "All-optical switching mediated by magnetic nanoparticle," Opt. Lett. 35, 97 (2010).

2009

[7] Q.-F. Dai, H.-Y. Liu, J. Liu, L.-J. Wu, Q. Guo, W. Hu, X.-B. Yang, S.-H. Liu, S. Lan, A. V. Gopal and V. A. Trofimov, “Influence of trapping power and scanning speed on the quality of ordered structures formed in Z-scan-based optical trapping,” Europhys. Lett. 85 18004 (2009). 

[6]L.-D. Jiang, Q.-F. Dai, T, -H, Feng, J. Liu, L.-J. Wu, S. Lan, A. V. Gopal and V. A. Trofimov, “In-situ characterization of three-dimensional optical matters by light diffraction,” Chinese Phys. Lett. 26 074201 (2009).

2008

[5] Q.-F. Dai, H.-Y. Liu, J. Liu, L.-J. Wu, Q. Guo, W. Hu, X.-B. Yang, S.-H. Liu, S. Lan, A. V. Gopal and V. A. Trofimov, “Self-induced transparency in colloidal liquids by Z-scan-based optical trapping,” Appl. Phys. Lett. 92, 153111 (2008).

[4] H.-D. Deng, J. Liu, W.-R. Zhao, W. Zhang, X.-S. Lin, T. Sun, Q.-F. Dai, L.-J. Wu, S. Lan and A. V. Gopal, “Enhancement of switching speed by laser-induced clustering of nanoparticles in magnetic fluids,” Appl. Phys. Lett. 92, 233103 (2008).

[3] J. Liu, Q.-F. Dai, Z.-M. Meng, X.-G. Huang, L.-J. Wu, Q. Guo, S. Lan, A. V. Gopal and V. A. Trofimov, “All-optical switching using controlled formation of large volume three-dimensional optical matter,” Appl. Phys. Lett. 92, 233108 (2008).

[2] J. Liu, Q.-F. Dai, X.-G. Huang, L.-J. Wu, Q. Guo, S. Lan, A. V. Gopal and V. A. Trofimov, “Dynamics of optical matter creation and annihilation in colloidal liquids controlled by laser trapping power,”  Opt. Lett. 33, 2617 (2008).

[1 ] J. Liu. Q.-F. Dai, T, -H Feng, H.-Y. Liu, L.-J. Wu, Q. Guo, W. Hu, S.-H. Liu, S. Lan, A. V. Gopal and V. A. Trofimov, “Manipulation of microparticles in colloidal liquids by Z-scan-based optical trapping,” J. Appl. Phys. 104, 114306 (2008).