PUBLICATONS
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202 H. Q. Liang, S. Mu, J. B. Gong and L. Li, Anomalous hybridization of spectral winding topology in quantized steady-state responses,
arXiv:2112.05191
201 S. Mu, L. Zhou, L. Li and J. B. Gong, Non-Hermitian pseudo mobility edge in a coupled chain system,
arXiv:2111.11914
200 C. Wang, L. Li, J. B. Gong, and Y. X. Liu, Arbitrary entangled state transfer via a topological qubit chain,
arXiv:2111.05561
199 L. Li and J. B. Gong, Probing higher-order band topology via spin texture measurements:
quantum simulation, Science Bulletin 66, 1817 (2021) (News and Views)
198 S. H. Chiew, J. B. Gong, L. C. Kwek, C. K. Lee,
Stability of Many-Body Localized Systems Coupled to Small Bath, arXiv:2107.07710
197 N. Ma and J. B. Gong, Unsupervised identification of Floquet topological phase boundaries,
arXiv:2106.11468
196 M. Umer, R. W. Bomantara, and J. B. Gong,
Nonequilibrium hybrid multi-Weyl semimetal phases, Journal of Physics: Material 4, 045003 (2021) (open access).
195 W. W. Zhu, M.Umer, and J. B. Gong,
Floquet higher-order Weyl and nexus semimetals, Phys. Rev. Research 3, L032026 (2021). See also
arXiv:2104.07433
194 W. W. Zhu, Y. D. Chong, and J. B. Gong, Symmetry Analysis of Anomalous Floquet Topological Phases, Phys. Rev. B 104, L020302 (2021).
See also arXiv:2103.08230
193 W. W. Zhu, W. X. Teo, L. H. Li, J. B. Gong,
Delocalization of topological edge states, Phys. Rev. B 103, 195414 (2021). See also
arXiv:2103.04619
192 J. S. Pan, W. Yi, and J. B. Gong, Emergent PT-symmetry breaking of Anderson-Bogoliubov modes in Fermi superfluids,
Communications Physics 4, 261 (2021). See also arXiv:2103.00450
191 W. W. Zhu, H. R. Xue, J. B. Gong, Y. D. Chong, B. L. Zhang,
Time-periodic corner states from Floquet higher-order topology, Nature Communications (in press). See also
arXiv:2012.08847
190 R. W. Bomantara, S. Mu, and J. B. Gong,
Topological and dynamical features of periodically driven spin ladders, Phys. Rev. B 103, 235404 (2021). See also
arXiv:2012.03443
189 L. Li, S. Mu. C.H. Li, and J. B. Gong,
Quantized classical response from spectral winding topology, Nature Communications (in press). See also
arXiv:2012.08799
188 J.-S. Pan, L. Li, and J. B. Gong,
Point-gap topology with complete bulk-boundary correspondence in dissipative quantum systems, Phys. Rev. B 103, 205425 (2021). See also
arXiv:2010.14862
187 Yiqi Hu, Yihong Qi, Yu You, Shicheng Zhang, Gongwei Lin, Xiaolin Li, Jiangbin Gong, Shangqing Gong, and Yueping Niu,
Kerr-type nonlinear optical isolators bypassing dynamic reciprocity, Phys. Rev. Applied 16, 014046 (2021). See also
arXiv:2010.08783
186 W. Zhu, Y.D. Chong and J. B. Gong,
Floquet higher order topological insulator in a periodically driven bipartite lattice, Phys. Rev. B 103, L041402 (2021).
See also arXiv:2010.03879
185 L. Zhou, Y. Gu, and J. B. Gong,
Dual topological characterization of non-Hermitian Floquet phases, Phys. Rev. B 103, L041404 (2021).
See also arXiv:2009.13078
184 M. Umer, R. W. Bomantara, and J. B. Gong, Dynamical characterization of Weyl nodes in Floquet Weyl semimetal phases, Phys. Rev. B 103, 094309 (2021)
See also arXiv:2009.09189
183 L. Li, C. H. Lee and J. B. Gong, Impurity induced scale-free localization, Communications Physics 4:42 (2021).
See also arXiv:2008.05501
182 L. Li, W. Zhu, and J. B. Gong, Direct dynamical characterization of higher-order topological insulators with nested band inversion surfaces, Science Bulletin 66, 1502 (2021). See also
arXiv:2007.05759
181 T. Tuloup, R. W. Bomantara, C. H. Lee, and J. B. Gong, Nonlinearity induced topological physics in momentum space and real space, Phys. Rev. B 102, 115411 (2020). See also
arXiv:2006.09753
180 C. H. Lee, L. Li, R. Thomale, and J. B. Gong, Unraveling non-Hermitian pumping: emergent spectral singularities and anomalous responses, Phys. Rev. B 085151 (2020). See also See also arXiv:1912.06974
179 J. Decamp, J. B. Gong, H. Loh, C. Miniatura, A universal graph description for one-dimensional exchange models, Phys. Rev. Research 2, 033297 (2020).
See also arXiv:2006.00798
178 Y. Ke, S. Hu, B. Zhu, J. B. Gong, Y. Kivshar, C. Lee, Topological pumping assisted by Bloch oscillations, Phys. Rev. Research 2, 033143 (2020).
See also arXiv:2005.01227
177 L. Li, C. H.Lee, S. Mu, and J. B. Gong, Critical non-Hermitian Skin Effect, Nature Communications 11, 5491 (2020), Open access
at DOI: 10.1038/s41467-020-18917-4. See also arXiv:2003.03039
176 R. W. Bomantara and J. B. Gong, Combating quasiparticle poisoning with multiple Majorana fermions in a periodically-driven quantum wire, J. Phys.: Condens. Matter 32 435301 (2020). See also arXiv:1912.03827
175 M. Umer, R. W. Bomantara, and J. B. Gong, Counter-propagating edge states in Floquet topological insulating phases, Phys. Rev. B 101, 235438 (2020). See also arXiv:2001.06972
174 W. X. Teo, L. Li, X. Zhang, and J. B. Gong, Topological characterization of non-Hermitian multiband systems using Majorana's Stellar Representation, Phys. Rev. B 101, 205309 (2020). See also arXiv:2002.07490
173 S. Mu, C. H. Lee, L. H. Li and J. B. Gong, Emergent Fermi surface in a many-body non-Hermitian Fermionic chain, Phys. Rev. B 102, 081115(R) (2020) (Rapid Communications and Editors' Suggestion).
See also arXiv:1911.00023
172 S. K. Zhang and J. B. Gong, Floquet Engineering with Particle Swarm Optimization: Maximizing Topological Invariants, Phys. Rev. B 100, 235452 (2019). See also arXiv:1910.09125
171 L. H. Li, C. H. Lee, and J. B. Gong, Topological Switch for Non-Hermitian Skin Effect in Cold-Atom Systems with Loss, Phys. Rev. Lett. 124, 250402 (2020). See also arXiv:1910.03229
170 X. Z. Zhang and J. B. Gong, Non-Hermitian Floquet topological phases: Exceptional points, coalescent edge modes, and the skin effect, Phys. Rev. B 101, 045415 (2020). See also arXiv:1909.10234
169 P. Nurwantoro, R. W. Bomantara, and J. B. Gong, Discrete time crystals in many-body quantum chaos, Phys. Rev. B 100, 214311 (2019). See also arXiv:1909.04337
168 S. Tan, R. W. Bomantara, and J. B. Gong, High-fidelity and long-distance entangled-state transfer with Floquet topological edge modes. Phys. Rev. A 102, 022608 (2020). See arXiv:1909.03646
167J. Decamp, J. B. Gong, H. Q. Loh, and C. Miniatura, Graph-theory treatment of one-dimensional strongly repulsive fermions, Phys. Rev. Research 2, 023059 (2020). See also arXiv:1907.13462
166 D. J. Zhang and J. B. Gong, Dissipative adiabatic measurements: Beating the quantum Cramer-Rao bound, Phys. Rev. Research 2, 023418 (2020). See also arXiv:1907.10340
165 S. Mu, D. J. Zhang, L. W. Zhou, and J. B. Gong, Revealing many-body effects on interband coherence through adiabatic charge pumping, Phys. Rev. B 100, 144303 (2019).
See also arXiv:1907.08370
164 G. W. Lin, S. C. Zhang, Y. Q. Hu, Y. P. Niu, J. B. Gong and S. Q. Gong, Nonreciprocal amplification with four-level hot atoms, Phys. Rev. Lett . 123, 033902 (2019).
163 C.H. Lee, H. H. Yap, T. Tai, G. Xu, X. Zhang, and J. B. Gong, Enhanced higher harmonic generation from nodal topology, Phys. Rev. B 102, 035138 (2020).
See also arXiv:1906.11806
162 D.J. Zhang, Q-h. Wang, and J. B. Gong, Time-dependent PT-symmetric quantum mechanics in generic non-Hermitian systems, Phys. Rev. A 99, 042104 (2019).
See also arXiv:1906.03431
161 L. Li, C.H. Lee, and J.B. Gong, Boundary states of 4D topological matter: Emergence and full 3D-imaging of nodal Seifert surfaces, Communications Physics 2, 135 (2019) (Open access article, https://doi.org/10.1038/s42005-019-0235-4)
160 L. Li, C.H. Lee, and J.B. Gong, Geometric Characterization of non-Hermitian topological systems through the singularity ring in pseudo-spin vector space, Phys. Rev. B 100, 075403 (2019).
See also arXiv:1905.04965
159 R.W. Bomantara and J.B. Gong, Measurement-only quantum computation with Floquet Majorana corner modes, Phys. Rev. B 101, 085401 (2020). See Also
arXiv:1904.03161
158 K. Yang, L. Zhou, W. Ma, X. Kong, P. Wang, X. Qin, X. Rong, Y. Wang, F. Shi, J.B. Gong, J. Du, Floquet dynamical quantum phase transitions, Phys. Rev. B 100, 085308 (2019).
See also arXiv:1901.10365
157 N.V. Horne, D. Yum, T. Dutta, P. Hanggi, J.B. Gong, D. Poletti, M. Mukherjee, Single atom energy-conversion device with a quantum load, NPJ quantum information 6, 37 (2020). Open Access link
link here
156 D.J. Zhang, Q-h Wang, and J.B. Gong, Differential geometry of time-dependent PT-symmetric quantum mechanics,
arXiv:1811.04640
155 D.J. Zhang, Q-h Wang, and J.B. Gong, Quantum geometric tensor in PT-symmetric quantum mechanics, Phys. Rev. A 99, 042104 (2019).
See arXiv:1811.04638
154 C.H. Lee, L. Li, and J.B. Gong, Hybrid higher-order skin-topological modes in non-reciprocal systems, Phys. Rev. Lett. 123, 016805 (2019).
See arXiv:1810.11824
153 R.W. Bomantara, L.Zhou, J. Pan, and J.B. Gong, Coupled-wire construction of static and Floquet second-order topological insulators, Phys. Rev. B 99, 045441 (2019).
See also arXiv:1811.02325
152 S.C. Zhang, Y.Q. Hu, G.W. Lin, Y.P. Niu, K.Y. Xia,
J.B. Gong, and S.Q. Gong, Thermal-motion-induced non-reciprocal quantum optical system, Nature Photonics 12, 744 (2018).
151 D.J. Zhang and J.B. Gong, Topological characterization of one-dimensional open fermionic systems, Phys. Rev. A. 98, 052101 (2018).
150 J.B. Gong and Q.H. Wang, Piecewise Adiabatic Following: General Analysis and Exactly Solavable Models, Phys. Rev. A 99, 012107 (2019).
See arXiv:1806.02520
149 C.H. Lee, W.W. Ho, B. Yang, J.B. Gong, and Z. Papic, Floquet Mechanism for Non-Abelian Fractional Quantum Hall States, Phys. Rev. Lett. 121, 237401 (2018).
See also arXiv:1805.01446
148 L.H Li, M Umer, and J.B. Gong, Direct prediction of corner state configurations from edge winding numbers in 2D and 3D chiral-symmetric lattice systems, Phys. Rev. B. 98, 205422 (2018).
See also arXiv:1808.10310
147 L.W. Zhou and J.B. Gong, Non-Hermitian Floquet topological phases with arbitrarily many real-quasienergy edge states, Phys. Rev. B. 98, 205417 (2018).
See also arXiv:1807.00988
146 R.W. Bomantara and J.B. Gong, Quantum computation via Floquet topological edge modes, Phys. Rev. B. 98, 165421 (2018).
See also arXiv:1807.07276
145 R.W. Bomantara and J.B. Gong, Simulation of Non-Abelian braiding in Majorana time crystals, Phys. Rev. Lett. 120, 230405 (2018).
See also arXiv:1712.09243
144 L.W. Zhou and J.B. Gong, Recipe for creating an arbitrary number of Floquet chiral edge states, Phys. Rev. B 97, 245430 (2018). See also
arXiv:1804.06407
143 L.W. Zhou and J.B. Gong, Floquet topological phases in a spin-1/2 double kicked rotors, Phys. Rev. A 97, 063603 (2018).
See also arXiv:1803.00350
142 L.H. Li, C.H. Lee, and J.B. Gong, Realistic Floquet semimetal with exotic topological linkages between arbitrarily many nodal loops, Phys. Rev. Lett. 121, 036401 (2018). See also arXiv:1803.06869
141 L.W. Zhou, Q.-h. Wang, H.L. Wang, and J.B. Gong,
Dynamical quantum phase transitions in non-Hermitian lattices, Phys. Rev. A A 98, 022129 (2018).
See also arXiv:1711.10741
140 H.H. Yap, L.W. Zhou, C.H. Lee, and J.B. Gong
Photoinduced (1/2) e^2/h and (3/2)e^2/h conductance plateaus in topological insulator-superconductor heterostructures, Phys. Rev. B 97, 165142 (2018).
See arXiv:1711.09540
139 H. Jiang, L.H. Li, J.B. Gong, S. Chen,
Characterization of Lifshitz transitions in topological nodal line semimetals, EPJB 91, 75 (2018).
See arXiv:1711.05733
138 L.H. Li, H.H. Yap, M.A.N. Araujo, J.B. Gong, Engineering topological phases with a three-dimensional nodal-loop semimetal, Physical Review B 96, 235424 (2017).
See arXiv:1709.07132
137 N. W. K. Wong, J.B. Gong, Y.K. Lim, Q.-h. Wang, New bounce solutions to the problem of false vacuum decay with gravity, Classical and Quantum Gravity 35, 045016 (2018).
See arXiv:1708.02689
136 P. Haughian, H.H. Yap, J. B. Gong, T. L. Schmidt, Charge pumping in strongly-coupled molecular quantum dots, Physical Review B 96, 195432 (2017). see also See arXiv:1708.01223
135 J.W. Deng, Juan D. Jaramillo, P. Hanggi, and J.B. Gong, Deformed Jarzynski equality, Entropy Vol. 19, 419 (2017). see also See arXiv:1707.07393
134 W.C. Ma, L.W. Zhou, Q. Zhang, K. Li, C.Y. Cheng, J.P. Geng, X. Rong, F.S. Shi, J.B. Gong, and J.F. Du,
Experimental Observation of a Generalized Thouless Pump with a Single Spin, Phys. Rev. Lett. 120, 120501 (2018). See also arXiv:1708.02081
133 / Q.-h. Wang and J.B. Gong, Piecewise Adiabatic following in Non-Hermitian Cyclicing, Phys. Rev. A 97, 052126 (2018).
See also arXiv:1610.00897
132 N.R.Gudapati, L.W. Zhou, and J.B. Gong, Interband coherence induced correction to Thouless pumping:
Possible observation in cold-atom systems, EPJB 90, 143 (2017).
131 /H.H. Yap, L.W. Zhou, J.S. Wang, and J.B. Gong, A computational study of two-terminal transport of Floquet quantum Hall
insulators, Phys. Rev B 96, 165443 (2017). See also arXiv:1707.03977
130/R.W. Bomantara, W.L. Zhao, L.W. Zhou, and J.B. Gong, Nonlinear Dirac Cones, Physical Review B Vol. 96, 121406(R) (2017) (Rapid Communications).
See arXiv:1707.09731
129 /J.D. Jaramillo, J.W, Deng, and J.B. Gong, Quantum Work Fluctuations in connection with Jarzynski Equality, Physical Review E Vol. 96, 042119 (2017).
See arXiv:1701.07603
128 /H.Q. Wang, M.N. Chen, R.W. Bomantara, J.B. Gong, and D.Y. Xing,
Line nodes and surface Majorana flat bands in static and kicked p-wave superconducting Harper model, Physical Review B Vol. 95, 075136 (2017). See
arXiv:1609.01865
127 /R.W. Bomantara and J.B. Gong, Generating controllable type-II Weyl points via periodic driving, Physical Review B Vol. 94, 235447 (2016). See also
arXiv:1701.07609
126 / L.W. Zhou, C. Chen, and J.B. Gong, Floquet Semimetal with Floquet-band Holonomy, Physical Review B Vol. 94, 075443 (2016). See also
arXiv:1608.08719
125 /J.W. Deng, A.M. Tan, P. Hanggi, and J.B. Gong, Merits and Qualms of Work Fluctuations in Classical Fluctuation Theorems, Physical Review E Vol. 95, 012106 (2017). See also
arXiv:1608.07025
124 / W.L. Zhao, J.B. Gong, W.G. Wang, G. Casati, J. Liu and L.B. Fu, Exponential Wavepacket Spreading via Self-interaction Modulation, Physical Review A Vol. 94, 053631 (2016).
123 /T.S. Xiong, J.B. Gong, and J.H. An, Towards large-Chern-number topological phases by periodic quenching, Physical Review B Vol 93, 184306 (2016). See also arXiv:1601.04437
122 /R.W. Bomantara, G.N. Raghava, L.W. Zhou, and J.B. Gong, Floquet topological semimetal phases of an extended kicked Harper model, Physical Review E Vol 93, 022209 (2016), highlighted by PRE as "Editor's Suggestion". See also
arXiv:1512.00202
121 /Z. Sun, L.W. Zhou, G.Y. Xiao, D. Poletti, and J.B. Gong, Finite-time Landau-Zener processes and counter-diabatic driving in open systems: beyond Born, Markov and Rotating-wave approximations
Physical Review A Vol. 93, 012121 (2016). See also
arXiv:1511.07695
120 /Q. Zhang and J.B. Gong, Perfect Zitterbewegung oscillations in the Kitaev chain system,
Physical Review A Vol. 93, 032117 (2016). See also
arXiv:1510.06098
119 /L.W. Zhou, D.Y. Tan, and J.B. Gong, Effects of Dephasing on Quantum Aiabatic Pumping with Nonequilibrium Initial states, Physical Review B , Vol. 92, 245409 (2015).
See also arXiv:1507.07331
118 /G.Y. Xiao and J.B. Gong, Principle of Minimal Work Fluctuations, Physical Review E, Vol.92, 022130 (2015). See also arXiv:1506.01185
117 /Q.F. Zhao and J.B. Gong, From Disordered Quantum Walk to Physics of Off-diagonal Disorder, Physical Review B , Vol. 92, 214205 (2015). See also arXiv:1506.01189
116 /G.Y. Xiao and J.B. Gong, Construction and Optimization of the Quantum Analog of Carnot Cycles, Physical Review E, Vol.92, 012118 (2015). arXiv:1503.00784
115 /D.Y. Tan, A.Z. Chaudhry, and J.B. Gong, Optimization of the environment
for generating entanglement and spin squeezing, Journal of Physics B Vol. 48, 115505 (2015)
114 /J.B. Gong and Q.-h. Wang, Stablizing non-Hermitian systems by periodic driving, Physical Review A Vol. 91, 042135 (2015). See also arXiv:1412.3549
113 /H.L. Wang, L.W. Zhou, and J.B. Gong, Interband coherence induced correction to adiabatic pumping in periodically driven systems, Physical Review B Vol. 91, 085420 (2015). See also
arXiv:1501.00399
112 /G.Y. Xiao and J.B. Gong, Suppression of work fluctuations by optimal control: An approach based on Jarzynski's equality, Physical Review E Vol. 90, 052132 (2014). See also
arXiv:1408.3461
111 /Q.F. Zhao, C.A. Muller, and J.B. Gong, Quantum and Classical Superballistic Transport in a Relativistic Kicked-Rotor System, Physical Review E Vol. 90, 022921 (2014). See also
arXiv:1405.6766
110 /L. W. Zhou, H. L. Wang, D. Y. H. Ho and J.B. Gong, European Physical Journal B Vol. 87, 204 (2014), Aspects of Floquet Bands and Topological Phase Transitions in a Continuously Driven Superlattice. See also
arXiv:1404.7248
109 /D. Y. H. Ho and J.B. Gong, Topological Effects in Chiral Symmetric Driven Systems. Physical Review B Vol. 90, 195419 (2014). See also
arXiv:1403.7262
108 /Q. Zhang, J.B. Gong, and B. Wu, Hierarchical Theory of Quantum Adiabatic Evolution,
New Journal of Physics Vol. 16, 123024 (2014). See also arXiv:1402.6431
107 /A.Z. Chaudhry and J.B. Gong, Physical Review A Vol. 90, 012101 (2014), Zeno and anti-Zeno effects on Dephasing, arXiv:1402.5228
106 /G. W. Lin, J. B. Gong, J. Yang, Y. H. Qi, X. M. Lin, Y. P. Niu, and S. Q. Gong, Physical Review A Vol. 89, 043815 (2014), Optical cavity quantum electrodynamics with dark-state polaritons.
105 /A.Z. Chaudhry and J.B. Gong,
Physical Review A Vol 89, 014104 (2014), Decoherence induced by a composite environment.
104 /A.Z. Chaudhry and J.B. Gong,
Canadian Journal of Chemistry (Paul Brumer special issue) Vol 92, 119 (2014), The effect of state preparation in a many-body system.
103 /J.W. Deng, Q.-h. Wang, Z.H. Liu, P. Hanggi, and J.B. Gong, Phys. Rev. E Vol 88, 062122 (2013),
Boosting work characteristics and overall heat engine performance via shortcuts to adiabaticity: quantum and classical systems.
See also arXiv:1307.4182
102 /Y.S. Teo and J.B. Gong, J. Phys. B. Vol. 46, 235504 (2013),
Double Rabi model in ultra-strong coupling regime: entanglement and chaos beyond the rotating wave approximation.
101 /H.L. Wang, D.Y.H. Ho, W. Lawton, J. Wang and J.B. Gong,
Phys. Rev. E Vol. 88, 052920 (2013), Kicked-Harper model vs On-Resonance Double Kicked Rotor
Model: From Spectral Difference to Topological Equivalence (15 pages).
See also arXiv:1306.6128
100 /H.L. Wang, J. Wang, I. Guarneri, G. Casati, J.B. Gong, Phys. Rev. E Vol. 88, 052919 (2013),
Exponential Quantum Spreading in a Class of Kicked Rotor Systems near High-Order Resonances.
See also arXiv:1308.3527
99 /J.B. Gong and Q.-h Wang,
J. Phys. A Vol. 46, 485302 (2013), Time-Dependent PT-symmetric Quantum Mechanics (20 pages). See also arXiv:1210.5344
98 /A.Z. Chaudhry and J.B. Gong,
Phys. Rev. A Vol. 88, 052107 (2013), Role of initial system-environment correlations: A master equation approach (13 pages).
See also arXiv:1307.0595
97 /Y.L. Guan, D.Q. Nguyen, J.W. Xu, and J.B. Gong,
Phys. Rev. A Vol. 87, 052316 (2013), Reexamination of Measurement-induced Chaos in Entanglement Purification Protocols.
96 /Q.Zhang, J.B. Gong, and C.H. Oh,
Chin. Phys. Lett. Vol. 30, 080301 (2013), Synthetic Spin-Orbit Coupling in Two-Level Cold Atoms.
See also arXiv:1208.3005
95 /Q.J. Tong, J.H. An, J.B. Gong, H.G. Luo, and C.H. Oh,
Phys. Rev. B Vol. 87, 201109 (R) (2013), Generating Many Majorana Modes via Periodic Driving: A Superconductor Model.
See also arXiv:1211.2498
94 /A.Z. Chaudhry and J.B. Gong,
Phys. Rev. A Vol. 87, 012129 (2013), Amplification and Suppression of System-Bath Correlation Effects in an Open Many-Body System. See also
arXiv:1211.4910
93 /Q. Zhang, J.B. Gong, and C.H. Oh,
Phys. Rev. Lett. Vol. 110, 130402 (2013), Intrinsic Dynamical Fluctuation Assisted Symmetry Breaking in Adiabatic Following.
92 /J.N. Bandyopadhyay and J.B. Gong,
Eur. Phys. J. B Vol. 85, 335 (2012), Statistical Properties of Power-Law Random Banded Unitary Matrices in the
Delocalization-Localization Transition Regime. See also arXiv:1209.0373
91 /C.K. Lee, J.S. Cao and J.B. Gong,
Phys. Rev. E. Vol. 86, 021109 (2012), Non-Canonical Statistics of a Spin-Boson Model: Theory and
Exact Monte-Carlo Simulations. See also arXiv:1207.7174
90 /A. Z. Chaudhry and J.B. Gong,
Phys. Rev. A Vol. 86, 012311 (2012), Protecting and enhancing spin squeezing via continuous dynamical decoupling.
See also arXiv:1203.4631
89 /D.Y.H. Ho and J.B. Gong,
Phys. Rev. Lett. Vol. 109, 010601 (2012) (Editor's Suggestion), Quantized Adiabatic Transport in Momentum Space.
See also arXiv:1206.4756
88 /V. Balachandran and J.B. Gong,
Phys. Rev. A Vol. 85, 062303 (2012), Scalable engineering of multipartite W states in a spin chain.
87 /J.B. Gong, and Q.-h Wang,
J. Phys. A Vol. 45, 444014 (2012), 2x2 random matrix ensembles with reduced
symmetry: From Hermitian to PT-symmetric matrices.
See also arXiv:1204.6126
86 /Q.F. Zhao, J.B. Gong, and C.A. Muller,
Phys. Rev. B. Vol. 85, 104201 (2012), Localization behavior of Dirac particles in disordered graphene superlattices.
See also arXiv:1111.3436
85 /W.G. Wang, L.W. He, and J.B. Gong,
Phys. Rev. Lett. Vol. 108, 070403 (2012),
Preferred States of Decoherence under Intermediate System-Environment Coupling.
84 /Z.J. Zhang, P.Q. Tong, J.B. Gong, and B.W. Li,
Phys. Rev. Lett. Vol 108, 070603 (2012), Quantum hyperdiffusion in one-dimensional tight-binding lattices.
83 /N. Qiu, J.B. Gong, and X.-B. Wang,
J. Phys. B. Vol. 45, 045501 (2012), Protecting multi-qubit states in computational subspaces by nested dynamical decoupling sequences.
82 /A.Z. Chaudhry and J.B. Gong,
Phys. Rev. A. Vol. 85, 012315 (2012), Decoherence control: Universal protection of two-qubit states and two-qubit gates using continuous driving fields.
See also arXiv:1110.4695
81 /Q. Zhang, J.B. Gong, and C.H. OH, Ann. Phys. Vol. 327, 1202 (2012), Dynamical Fluctuations in Classical Adiabatic Processes:
General Description and their implications.
80 /J. Wang, I. Guarneri, G. Casati, and J.B. Gong,
Phys. Rev. Lett. Vol. 107, 234104 (2011), Long-Lasting Exponential Spreading in Periodically Driven Quantum Systems.
79 /Q. Zhang, J.B. Gong, C.H. Oh,
EPL , Vol. 96, 10004 (2011), Converting Zitterbewegung Oscillation to Directed Motion.
See also arXiv:1105.2884
78 /J.B. Gong, Comment on "Quantification of Macroscopic Quantum
Superpositions within Phase Space", arXiv:1106.0062
77 /D.W. Lu, N.Y. Xu, R.X. Xu, H.W. Chen, J.B. Gong, X.H. Peng, and J.F. Du,
Phys. Rev. Lett. Vol. 107, 020501 (2011), Simulation of Chemical Isomerization Reaction Dynamics on an NMR Quantum Simulator. See also arXiv:1105.4228
76 /C. K. Lee and J.B. Gong, Phys. Rev. E , Vol. 84, 011104 (2011),
Fokker-Planck Equation with Arbitrary DC and AC Fields: Continued Fraction
Method.
75 /Y. Pan, Z. R. Xi, and J.B. Gong, J. Phys. B , Vol. 44, 175501 (2011),
Optimized Dynamical Decoupling Sequences in Protecting Two-Qubit States. arXiv:1110.5101
74 /Z. J. Zhang, P. Q. Tong, J.B. Gong, and B. W. Li, Phys. Rev. E Vol. 83, 056205 (2011), Wavepacket Dynamics in
One-Dimensional Linear and Nonlinear Generalized Fibonacci Lattices.
73 /Y. Wang, X. Rong, P.B. Feng, W.J. Xu, B. Chong, J.H. Su, J.B. Gong, and J. F. Du, Phys. Rev. Lett., Vol. 106, 040501 (2011),
Preservation of Bipartite Pseudo-Entanglement in Solids Using Dynamical Decoupling.
72 /J.B. Gong and J.R.H. Xie, Preface for "A Special Section on Chaos and Transport at the Nanoscale", Journal of Computational and Theoretical Nanoscience, Vol. 7, 2428-2429 (2010).
71 / D. Peng, B. Wu, P. Fu, B.B. Wang, J.B. Gong, Z.C Yan, Phys. Rev. A , Vol. 82, 053407 (2010), Sensitive Frequency-Dependence of the Carrier-Envelope Phase Effect on Bound-Bound Transition: An Interference Perspective. See also arXiv:1009.5049
70 /M. Mukhtar, W.T. Soh, T.B. Saw, and J.B. Gong, Phys. Rev. A , Vol. 82, 052338 (2010),
Protecting Unknown Two-qubit Entangled States by Nesting Uhrig's Dynamical Decoupling Sequences. See also arXiv:1009.0399
69 /V. Balachandran, G. Benenti, G. Casati, and J.B. Gong, Phys. Rev. E , Vol. 82, 046216 (2010), Phase-space Characterization of Complexity in Quantum Many-body Dynamics. See also arXiv:1009.0560
68 /J.B. Gong and Q.H. Wang, Phys. Rev. A , Vol. 82, 012103 (2010),
Geometric Phase in PT-symmetric Quantum Mechanics. See also arXiv:1003.3076
67 /G.B. Akguc and J.B. Gong, Phys. Rev. B , Vol. 81, 117402 (2010), Reply to " Comment on
'Wave-scattering Formalism for Thermal Conductance in Thin Wires with Surface Disorder' ".
66 /J.B. Gong and P. Brumer, J. Chem. Phys. , Vol. 132, 054306 (2010),
Indistinguishability and Interference in the Coherent Control of
Atomic and Molecular Processes. arXiv:1002.1438
65 / M. Mukhtar, T.B. Saw, W.T. Soh, and J.B. Gong,
Phys. Rev. A , Vol. 81, 012331 (2010),
Universal Dynamical Decoupling: Two-qubit States and Beyond. See
also
arXiv:0911.1676
64 /B. Xiong and J.B. Gong, Phys. Rev. A ,
Vol. 81, 033618 (2010), Dynamical Creation of Complex Vector Solitons in Spinor Bose-Einstein
Condensates.
63 /Q. Zhang, J.B. Gong, and C.H. Oh, Phys. Rev. A , Vol. 81, 023608 (2010),
Driven Dirac-like Equation via Mirror Oscillation: Controlled Cold-Atom Zitterbewegung.
62 /J.N. Bandyopadhyay, J. Wang, and J.B. Gong, Phys. Rev. E , Vol. 81, 066212 (2010), Generating a fractal butterfly Floquet spectrum in a class of driven SU(2) systems: Eigenstate statistics. See
also
arXiv:0910.4423
61 /J. Wang and J.B. Gong, Phys. Rev. E , Vol. 81, 026204 (2010), Generating a Fractal Butterfly Floquet Spectrum in a Class of Driven SU(2) Systems.
See also arXiv:0906.2257
60 /Q. Zhang, J.B. Gong, and C.H. Oh, Annals of Physics , Vol. 325, 1219 (2010), Control of Tripod-Scheme Cold-Atom Wavepackets by Manipulating a non-Abelian Vector Potential.
See also arXiv:0906.1625
59 /Y.C. Guo, P.M. Fu, Z.C. Yan, J.B. Gong, and B.B. Wang, Phys. Rev. A , Vol. 80, 063408 (2009), Imaging the Geometrical Structure of the H2+ Molecular Ion by High-order Above-threshold Ionization in an Intense Laser Field.
58 /G.B. Akguc and J.B. Gong, Phys. Rev. B , Vol. 80, 195408 (2009), Wave-scattering Formalism for Thermal Conductance in Thin Wires with Surface Disorder. See also arXiv:0910.0321
57 /J.L. Garcia-Palacios, J.B. Gong and F. Luis, J. Phys. (cond. Matt.) , Vol. 21, 456006 (2009),
Equilibrium susceptibilities of superparamagnets: longitudinal & transverse, quantum & classical (15 pages), see
also
arXiv:0907.3181
56 /J.B. Gong, L. Morales-Molina, and P. Hanggi, Phys. Rev. Lett. , Vol. 103, 133002 (2009), Many-Body Coherent Destruction of Tunneling. See also arXiv:0909.0072
55 /J. Wang and J.B. Gong, Phys. Rev. Lett., Vol. 102, 244102 (2009), Butterfly Floquet Spectrum in Driven SU(2) Systems. See also arXiv:0906.2259
54 /Q. Zhang, J.B. Gong and C.H. Oh, Phys. Rev. A , Vol. 79, 043632 (2009), All-optical Imprinting of Geometric Phases onto Matter Waves. See also arXiv:0904.0310
53 /B. Xiong, J.B. Gong, H. Pu, W. Bao and B. Li, Phys. Rev. A , Vol. 79, 013626 (2009), Symmetry-Breaking and Self-Trapping of a Dipolar Bose-Einstein Condensate in a Double-Well Potential. See also arXiv:0812.3193
52 /V. Balachandran and J.B. Gong, Phys. Rev. A, Vol. 79, 012317 (2009), Towards Controlled Measurement Processes: Simple Spin-Chain Model of Controlled Quantum State Amplification.
51 /J. Pelc, J.B. Gong, and P. Brumer, Phys. Rev. E , Vol 79, 066207 (2009),
Chaos and Correspondence in Classical and Quantum Hamiltonian Ratchets: A Heisenberg Approach. See also arXiv:0906.1435
50 /X.X. Liu, H. Pu, B. Xiong, W.M. Liu, and J.B. Gong, Phys. Rev. A , Vol. 79, 013423 (2009), Formation and Transformation of Vector-solitons in Two-species Bose-Einstein Condensates with Tunable Interaction. See also arXiv:0808.3823
49 /W.M. Lawton, A.S. Mouritzen, J. Wang, and J.B. Gong, J. Math. Phys. , Vol. 50, 032103 (2009),
Spectral Relationships Between Kicked Harper and On-Resonance Double Kicked Rotor Operators (26 pages), see also
arXiv:0807.4276
48 /J. Wang, A.S. Mouritzen, and J.B. Gong, Journal of Modern Optics (special issue on quantum control) Vol. 56, 722 (2009): Quantum Control of Cold Atoms: Uncovering a Novel Connection Between Two Paradigms of Quantum Nonlinear Dynamics.
See also arXiv:0803.3859
47 /G.B. Akguc and J.B. Gong,
Phys. Rev. B 78, 115317 (2008), Conductance Properties of Rough Quantum Wires with Colored Surface Disorder. See also arXiv:0910.0303
46 /L. Morales-Molina and J.B. Gong,
Phys. Rev. A (Rapid Communication) Vol. 78, 041403 (2008), Controlling the Population Imbalance of a Bose-Einstein Condensate
by a Symmetry-Breaking Driving Field. See also arXiv:0807.0506
45 /J. Wang and J.B. Gong,
Phys. Rev. E 78, 036219 (2008), Quantum Ratchet Accelerator without a Bichromatic Lattice Potential. See also arXiv:0806.3842
44 /L. Morales-Molina, S. Flach, and J.B. Gong,
Euro. Phys. Lett. Vol. 83, 40005 (2008), Quantum Ratchet Control: Harvesting On Landau-Zener Transitions.
See also arXiv:0805.0827
43 /Q. Zhang, P. Hanggi, and J.B. Gong,
New Journal of Physics Vol. 10, 073008 (2008), Nonlinear Landau-Zener Processes in a Periodic Driving Field.
See also arXiv:0804.4538
42 /J.B. Gong, International Journal of Quantum Information Vol. 6, 411-414 (2008): Invited Book Review on "Introduction to Quantum Control and Dynamics" by Dr. D. D'Alessandro.
41 /X.Q. Xi, J.B. Gong, T. Zhang, R.H. Yue, and W.M.Liu, Euro. Phys. J. D 50, 193 (2008), Explicit Designs of Spin Chains for Perfect Quantum State Transfer.
40 /G.B. Akguc and J.B. Gong , Phys. Rev. B 77, 205302 (2008), Spin-Dependent Transport in Two-dimensional Waveguides of Arbitrary Geometry.
39 /Q. Zhang, P. Hanggi, and J.B. Gong, Phys. Rev. A 77, 053607 (2008), Two-mode Bose Einstein Condensate in a High-frequency Driving Field that Directly Couples the Two Modes. See also arXiv:0711.4445 .
38 /J. Wang and J.B. Gong, Phys. Rev. A (Rapid Communication) Vol. 77, 031405 (2008), Proposal of a Cold-atom Realization of Quantum Maps with Hofstadter's Butterfly Spectrum; and Erraum, Phys. Rev. A , Vol. 84, 039904 (E) (2011). arXiv:0711.3939 .
37 /A. Kenfack, J.B. Gong, and A. Pattanayak, Phys. Rev. Lett. 100, 044104 (2008), Controlling the Ratchet Effects for Cold Atoms. See also arXiv:0708.3026 .
36 /W. Wang, J.B. Gong, G. Casati, and B. Li, Phys. Rev. A 77, 012108 (2008), Entanglement-induced Decoherence and Energy Eigenstates. See also arXiv:0712.0059 .
35 /V. Balachandran and J.B. Gong, Phys. Rev. A 77, 012303 (2008), Adiabatic Quantum Transport in a Spin Chain by a Moving Potential. See also arXiv:0712.1628
34 /J.B. Gong and J. Wang, Phys. Rev. E 76, 036217 (2007), Quantum Diffusion Dynamics in Nonlinear Systems: A Modified Kicked-Rotor Model.
33 /M. Zhang, J.B. Gong, A. Ma, and S.A. Rice, J. Chem. Phys. 127, 144501 (2007), Infrared Multi-photon Induced Isomerization and Dissociation of FCN, ClCN, and BrCN in Liquid Ar: A Classical Simulation Study.
32 /J.B. Gong and P. Brumer, Phys. Rev. A 75, 032331 (2007), Controlled Quantum State Transfer in a Spin Chain.
31 /J.B. Gong, D. Poletti, and P. Hanggi, Phys. Rev. A 75, 033602 (2007), Dissipationless Directed Transport in Rocked Single-Band Quantum Dynamics.
30/J.B. Gong and P. Brumer, Phys. Rev. Lett . 97, 240602 (2006), Generic Quantum Ratchet Accelerator with Full Classical Chaos.
Dr. Gong's other publications (before joining NUS):
P. Brumer and J.B Gong, Phys. Rev. A 73, 052109 (2006), Born Rule in Quantum and Classical Mechanics.
R. Xie and J.B. Gong, Phys. Rev. Lett . 95, 263202 (2005), Simple Three-Parameter Model Potential for Diatomic Systems: From Weakly and Strongly Bound Molecules to Metastable Molecular Ions.
J.B. Gong, A. Ma, and S.A. Rice, Phys. Rev. A 72, 063410 (2005), Binding Nonpolar Molecules in An Attractive Inverse Square Potential.
J.B. Gong, A. Ma, and S.A. Rice , J. Chem. Phys . 122, 204505 (2005), Controlled Sub-nanosecond Isomerization of HCN to HNC in Solution.
J.B. Gong, A. Ma, and S.A. Rice , J. Chem. Phys. 122, 144311 (2005), Isomerization and Dissociation Dynamics of HCN in A Picosecond Infrared Laser Field: A Full-dimensional Classical Study.
M. Zhao, J.B.Gong, and S. A. Rice, Adv. Chem. Phys .130, 3-142 (2005), Classical,Semiclassical, and Quantum Mechanical Unimolecular Reaction Rate Theory.
J. B. Gong and P. Brumer , Ann. Rev. Phys. Chem. 56, 1-23 (2005), Quantum Chaos Meets Coherent Control.
J.B. Gong and S. A. Rice, Phys. Rev. A 69, 063410 (2004), General Method for Complete Population Transfer in Degenerate Systems.
J.B. Gong and S. A. Rice, J. Mod. Opt . 51, 2477 (2004), Variations on Adiabatic Passage in Optical Control of Molecular Processes.
J. B. Gong and S. A. Rice , J. Chem. Phys . 121, 1364 (2004), Complete Control of the Population Transfer Branching Ratio between Two Degenerate Product States.
J.B. Gong and S. A. Rice, J. Chem. Phys. 120, 9984 (2004), Measurement-Assisted Coherent Control.
J.B. Gong and S. A. Rice, J. Chem. Phys . 120, 5117 (2004), Selective Photochemistry via Adiabatic Passage: Degenerate Product States with Different Lifetimes.
J.B. Gong and S. A. Rice, J. Chem. Phys. 120, 3777 (2004), Adiabatic Population Transfer in a Liquid: Taking Advantage of a Decaying Target State .
J.B. Gong and P. Brumer, Phys. Rev. E 70, 016202 (2004), Directed Anomalous Diffusion without a Biased Field: A Ratchet Accelerator.
J.B. Gong and P. Brumer, J. Mod. Opt. 50, 2411 (2003), Quantum versus Classical Decoherence Dynamics.
J.B. Gong and P. Brumer, Phys. Rev. A 68, 062103 (2003), Chaos and Quantum Classical Correspondence via Phase Space Distribution Functions.
J.B. Gong and P. Brumer, Phys. Rev. A 68, 022101 (2003), Intrinsic Decoherence Dynamics in Smooth Hamiltonian Systems: Quantum Classical Correspondence.
J.B. Gong, H. J. Worner, and P. Brumer, Phys. Rev. E 68, 056202 (2003), Control of Dynamical Localization.
J.B. Gong, H. J. Worner, and P. Brumer, Phys. Rev. E 68, 026209 (2003), Coherent Manipulation of Quantum Delta-kicked Dynamics: Faster-than-classical Anomalous Diffusion.
J.B. Gong, M. Shapiro, and P. Brumer, J. Chem. Phys . 118, 2626 (2003), Entanglement-Assisted Coherent Control in Nonreactive Diatom-Diatom Scattering.
J.B. Gong and P. Brumer , Phys. Rev. Lett . 90, 050402 (2003), When is Quantum Decoherence Dynamics Classical?
J.B. Gong, V. Zeman, and P. Brumer, Phys. Rev. Lett. 89, 109301 (2002), Comment on``Reaction Imaging with Interferometry''.
J.B. Gong and P. Brumer, Phys. Rev. Lett . 88, 203001 (2002), Phase Controlof Non-adiabaticity Induced Quantum Chaos in An Optical Lattice.
J. B. Gong and P. Brumer, Phys. Rev. Lett . 86, 1741 (2001), Coherent Control of Quantum Chaotic Diffusion.
J.B. Gong and P. Brumer, J. Chem. Phys. 115}, 3590 (2001), Coherent Control of Quantum Chaotic Diffusion: Diatomic Molecules in a Pulsed Microwave Field.
J.B. Gong and P. Brumer, Phys. Rev. E 60, 1643 (1999), Decoherence and Correspondence in Conservative Chaotic Dynamics.
J.B. Gong and G. Xu, Comm. Theor. Phys. 31, 91 (1999), Effects of Time Reversal Symmetry Breaking on Localization: Band Random Matrix Description.
J.B. Gong, G. Xu, and R. Xie, Phys. Rev. E 52, 57 (1995), Coherence-preserving Chaos in a Mixed Quantum Classical Description.
G. Xu, J.B. Gong, W. Wang, Y. Yang, and D. Fu, Phys. Rev. E 51, 1770 (1995), Development of Quantum Nonintegrability Displayed in Effective Hamiltonians. |
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