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[11] Y. Liu, D. Wu, S. Yao, J. Wang, Analytical and Numerical Investigations of Wedge-Induced Oblique Detonation Waves at Low Inflow Mach Number, Combustion Science and Technology, 187 (2014) 843-856.

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[14] D. Wu, Y. Liu, Y. Liu, J. Wang, Numerical investigations of the restabilization of hydrogen–air rotating detonation engines, International Journal of Hydrogen Energy, 39 (2014) 15803-15809.

[15] D. Wu, R. Zhou, M. Liu, J. Wang, Numerical Investigation of the Stability of Rotating Detonation Engines, Combustion Science and Technology, 186 (2014) 1699-1715.

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[18] Y. Liu, Y.S. Liu, D. Wu, J.P. Wang, Structure of an oblique detonation wave induced by a wedge, Shock Waves, 26 (2015) 161-168.

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[21] Y. Wang, J. Wang, Effect of equivalence ratio on the velocity of rotating detonation, International Journal of Hydrogen Energy, 40 (2015) 7949-7955.

[22] S. Yao, M. Liu, J. Wang, Numerical Investigation of Spontaneous Formation of Multiple Detonation Wave Fronts in Rotating Detonation Engine, Combustion Science and Technology, 187 (2015) 1867-1878.

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[25] S.-B. Yao, M. Liu, J.-P. Wang, The Effect of the Inlet Total Pressure and the Number of Detonation Waves on Rotating Detonation Engines, Procedia Engineering, 99 (2015) 848-852.

[26] Y. Liu, X. Han, S. Yao, J. Wang, A numerical investigation of the prompt oblique detonation wave sustained by a finite-length wedge, Shock Waves, 26 (2016) 729-739.

[27] Y. Wang, J. Wang, W. Qiao, Effects of thermal wall conditions on rotating detonation, Computers & Fluids, 140 (2016) 59-71.

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[29] S. Yao, X. Han, Y. Liu, J. Wang, Numerical study of rotating detonation engine with an array of injection holes, Shock Waves, 27 (2016) 467-476.

[30] S. Yao, X. Tang, J. Wang, Y. Shao, R. Zhou, Three-Dimensional Numerical Study of Flow Particle Paths in Rotating Detonation Engine with a Hollow Combustor, Combustion Science and Technology, 189 (2016) 965-979.

[31] S. Yao, J. Wang, Multiple ignitions and the stability of rotating detonation waves, Applied Thermal Engineering, 108 (2016) 927-936.

[32] R. Zhou, D. Wu, J. Wang, Progress of continuously rotating detonation engines, Chinese Journal of Aeronautics, 29 (2016) 15-29.

[33] S. Yao, Z. Ma, S. Zhang, M. Luan, J. Wang, Reinitiation phenomenon in hydrogen-air rotating detonation engine, International Journal of Hydrogen Energy, 42 (2017) 28588-28598.

[34] S. Yao, X. Tang, M. Luan, J. Wang, Numerical study of hollow rotating detonation engine with different fuel injection area ratios, Proceedings of the Combustion Institute, 36 (2017) 2649-2655.

[35] S. Yao, X. Tang, J. Wang, Numerical Study of the Propulsive Performance of the Hollow Rotating Detonation Engine with a Laval Nozzle, International Journal of Turbo & Jet-Engines, 34 (2017).

[36] S. Yao, J. Wang, Numerical study of reinitiation phenomenon in continuous detonation engine, in:  26th International Colloquium on the Dynamics of Explosions and Reactive Systems, Boston, USA, 2017.

[37] S. Yao, S. Zhang, J. Wang, Effects of pre-ignition conditions on continuous detonation engine, in:  26th International Colloquium on the Dynamics of Explosions and Reactive Systems, Boston, USA, 2017.

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[41] S. Yao, X. Han, Y. Liu, J. Wang, Numerical study of rotating detonation engine with an array of injection holes, Shock Waves, 27 (2017) 467-476

[42] S. Yao, X. Tang, J. Wang, Three-Dimensional Numerical Study of Flow Particle Paths in Rotating Detonation Engine with a Hollow Combustor, Combustion Science and Technology, 189(2017) 965-979

[43] Z. Ma, S. Zhang, M. Luan, S. Yao, Z. Xia, J. Wang, Experimental research on ignition, quenching, reinitiation and the stabilization process in rotating detonation engine, International Journal of Hydrogen Energy, 43(2018) 18521-18529

[44] Z. Xia, X. Tang, M. Luan, S. Zhang, Z. Ma, J. Wang, Numerical investigation of two-wave collision and wave structure evolution of rotating detonation engine with hollow combustor, International Journal of Hydrogen Energy, 43(2018) 21582-21591

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[46]Yanliang Chen, Xiangyang Liu and Jianping Wang*，Influences of Separate Injectors on Rotating Detonation Engines，AIAA Propulsion and Energy Forum，2018.

[47]John Z. Ma, Shujie Zhang, Mingyi Luan, Jianping Wang ∗, Experimental investigation on delay time phenomenon in rotating detonation engine, Aerospace Science and Technology 88 (2019) 395–404

[48]Li-Feng Zhang, John Z. Ma, Shu-Jie Zhang, Ming-Yi Luan, Jian-Ping Wang ∗, Three-dimensional numerical study on rotating detonation engines using reactive Navier-Stokes equations, Aerospace Science and Technology 93 (2019) 105271