[1] |
LAVRENOV I V. The wave energy concentration at the Agulhas current off South Africa[J]. Natural Hazards, 1998, 17(2):117-127.
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[2] |
LAWTON G. Monsters of the deep (the perfect wave)[J]. New Scientist, 2001, 170(2297): 28-32.
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[3] |
KJELDSEN S P. Dangerous wave groups[J]. Norwegian Maritime Research, 1984, 12(2): 4-6.
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[4] |
DIEKISON D. Huge waves[J]. Outside Magazine, 1995: 3-5.
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[5] |
HAVER S. A possible freak wave event measured at the Draupner Jacket January 1 1995[C]// Rogue Waves 2004. Brest, France: Ifremer, 2004:1-8.
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[6] |
WARWIEK R W. Hurricane Luis, the Queen Elizabeth 2 and a rogue wave[J]. Marine Observer, 1996, 66: 134.
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[7] |
HOLLIDAY N P, YELLAND M J, PASEAL R W, et al. Were extreme waves in the Rockall through the largest ever recorded? [J]. Geophysical Research Letters, 2006, 33(5): 151-162.
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[8] |
DIDENKULOVA I I, SLUNYAEV A V, PELINOVSKY E N, et al. Freak waves in 2005[J]. Natural Hazards and Earth System Sciences,2006, 6: 1007-1015.
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[9] |
SOLLI D R, ROPERS C, KOONATH P, et al. Optical rogue waves[J]. Nature,2007, 54: 1054-1057.
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[10] |
KIBLER B, FATOME J, FINOT C, et al. The Peregrine soliton in nonlinear fibre optics[J]. Nature Physics, 2010, 6(10): 790-795.
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[11] |
LAVEDER D, PASSOT T T, SULEM P, et al. Rogue waves in Alfvénic turbulence[J]. Physics Letters A, 2011, 375: 3997-4002.
|
[12] |
BLUDOV Y, KONOTOP V, AKHMEDIEV N. Matter rogue waves[J]. Physical Review A, 2009, 80(3): 033610.
|
[13] |
MOSLEM W M, SHUKLA P K,ELIASSON B. Surface plasma rogue waves[J]. Europhys Lett, 2011, 96(2): 25002- 25005.
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[14] |
MOSLEM W M, SABRY R, EL-LABANY S K, et al. Dust-acoustic rogue waves in a nonextensive plasma[J]. Physical Review E, 2011, 84(6): 066402.
|
[15] |
YAN Z, KONOTOP V V, AKHMEDIEV N. Three-dimensional rogue waves in nonstationary parabolic potentials[J]. Phys Rev E, 2010, 82: 036610.
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[16] |
YAN Zhenya. Financial rogue waves[J]. Communications in Theoretical Physics, 2010, 54: 947-949.
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[17] |
YAN Z . Vector financial rogue waves[J]. Physics Letters A, 2011, 375(48): 4274-4279.
|
[18] |
ZHANG X,CHEN Y. Rogue wave and a pair of resonance stripe solitons to a reduced (3+1)-dimensional Jimbo-Miwa equation[J].Communications in Nonlinear Science and Numerical Simulation, 2017, 52: 24-31.
|
[19] |
HUANG L L, CHEN Y. Lump solutions and interaction phenomenon for (2+1)-dimensional Sawada-Kotera equation[J]. Communications in Theoretical Physics, 2017, 67(5): 473-478.
|
[20] |
ZHENG P F, JIA M. A more general form of lump solution, lumpoff, and instanton/rogue wave solutions of a reduced (3+1)-dimensional nonlinear evolution equation[J]. Chin Phys B, 2018, 27(12): 120201.
|
[21] |
ZOU L, YU Z B, TIAN S F, et al. Lump solutions with interaction phenomena in the (2+1)-dimensional Ito equation[J]. Modern Physics Letters B, 2018: 1850104.
|
[22] |
ZHANG Xiaoen, CHEN Yong. Rogue wave and a pair of resonance stripe solitons to a reduced generalized (3+1)-dimensional KP equation[DB/OL]. [2018-01-01]. https://arxiv.org/abs/1610.09507.
|
[23] |
JIA S L, GAO Y T, HU W Q, et al. Solitons and breather waves for a (2+1)-dimensional Sawada-Kotera equation[J]. Modern Physics Letters B, 2017, 31(22): 1750129.
|
[24] |
FERMI E, PASTA J, ULAM S. Studies of nonlinear problems[R]. Los Alamos, NM: Los Alamos Scientific Lab, 1955: Report No. LA-1940.
|
[25] |
LANDOU L D, LIFSHITZ E M. Mechanics[M]. 3rd ed. Moscow: Nauka, 1993: 79.
|
[26] |
ZHANG X, CHEN Y. Rogue wave and a pair of resonance stripe solitons to a reduced (3+1)-dimensional Jimbo-Miwa equation[J]. Communications in Nonlinear Science Numerical Simulation, 2017, 52: 24-31.
|
[27] |
CHEN M D, LI X, WANG Y, et al. A pair of resonance stripe solitons and lump solutions to a reduced (3+1)-dimensional nonlinear evolution equation[J]. Communications in Theoretical Physics, 2017, 67(6): 595-600.
|
[28] |
HUANG L L, CHEN Y. Lump solutions and interaction phenomenon for (2+1)-dimensional Sawada-Kotera equation[J]. Communications in Theoretical Physics, 2017, 67(5): 473-478.
|
[29] |
ZHANG Xiaoen, CHEN Yong. Deformation rogue wave to the (2+1)-dimensional KdV equation[J]. Nonliear Dynamics, 2017, 90: 755-763.)
|
[1] |
LAVRENOV I V. The wave energy concentration at the Agulhas current off South Africa[J]. Natural Hazards, 1998, 17(2):117-127.
|
[2] |
LAWTON G. Monsters of the deep (the perfect wave)[J]. New Scientist, 2001, 170(2297): 28-32.
|
[3] |
KJELDSEN S P. Dangerous wave groups[J]. Norwegian Maritime Research, 1984, 12(2): 4-6.
|
[4] |
DIEKISON D. Huge waves[J]. Outside Magazine, 1995: 3-5.
|
[5] |
HAVER S. A possible freak wave event measured at the Draupner Jacket January 1 1995[C]// Rogue Waves 2004. Brest, France: Ifremer, 2004:1-8.
|
[6] |
WARWIEK R W. Hurricane Luis, the Queen Elizabeth 2 and a rogue wave[J]. Marine Observer, 1996, 66: 134.
|
[7] |
HOLLIDAY N P, YELLAND M J, PASEAL R W, et al. Were extreme waves in the Rockall through the largest ever recorded? [J]. Geophysical Research Letters, 2006, 33(5): 151-162.
|
[8] |
DIDENKULOVA I I, SLUNYAEV A V, PELINOVSKY E N, et al. Freak waves in 2005[J]. Natural Hazards and Earth System Sciences,2006, 6: 1007-1015.
|
[9] |
SOLLI D R, ROPERS C, KOONATH P, et al. Optical rogue waves[J]. Nature,2007, 54: 1054-1057.
|
[10] |
KIBLER B, FATOME J, FINOT C, et al. The Peregrine soliton in nonlinear fibre optics[J]. Nature Physics, 2010, 6(10): 790-795.
|
[11] |
LAVEDER D, PASSOT T T, SULEM P, et al. Rogue waves in Alfvénic turbulence[J]. Physics Letters A, 2011, 375: 3997-4002.
|
[12] |
BLUDOV Y, KONOTOP V, AKHMEDIEV N. Matter rogue waves[J]. Physical Review A, 2009, 80(3): 033610.
|
[13] |
MOSLEM W M, SHUKLA P K,ELIASSON B. Surface plasma rogue waves[J]. Europhys Lett, 2011, 96(2): 25002- 25005.
|
[14] |
MOSLEM W M, SABRY R, EL-LABANY S K, et al. Dust-acoustic rogue waves in a nonextensive plasma[J]. Physical Review E, 2011, 84(6): 066402.
|
[15] |
YAN Z, KONOTOP V V, AKHMEDIEV N. Three-dimensional rogue waves in nonstationary parabolic potentials[J]. Phys Rev E, 2010, 82: 036610.
|
[16] |
YAN Zhenya. Financial rogue waves[J]. Communications in Theoretical Physics, 2010, 54: 947-949.
|
[17] |
YAN Z . Vector financial rogue waves[J]. Physics Letters A, 2011, 375(48): 4274-4279.
|
[18] |
ZHANG X,CHEN Y. Rogue wave and a pair of resonance stripe solitons to a reduced (3+1)-dimensional Jimbo-Miwa equation[J].Communications in Nonlinear Science and Numerical Simulation, 2017, 52: 24-31.
|
[19] |
HUANG L L, CHEN Y. Lump solutions and interaction phenomenon for (2+1)-dimensional Sawada-Kotera equation[J]. Communications in Theoretical Physics, 2017, 67(5): 473-478.
|
[20] |
ZHENG P F, JIA M. A more general form of lump solution, lumpoff, and instanton/rogue wave solutions of a reduced (3+1)-dimensional nonlinear evolution equation[J]. Chin Phys B, 2018, 27(12): 120201.
|
[21] |
ZOU L, YU Z B, TIAN S F, et al. Lump solutions with interaction phenomena in the (2+1)-dimensional Ito equation[J]. Modern Physics Letters B, 2018: 1850104.
|
[22] |
ZHANG Xiaoen, CHEN Yong. Rogue wave and a pair of resonance stripe solitons to a reduced generalized (3+1)-dimensional KP equation[DB/OL]. [2018-01-01]. https://arxiv.org/abs/1610.09507.
|
[23] |
JIA S L, GAO Y T, HU W Q, et al. Solitons and breather waves for a (2+1)-dimensional Sawada-Kotera equation[J]. Modern Physics Letters B, 2017, 31(22): 1750129.
|
[24] |
FERMI E, PASTA J, ULAM S. Studies of nonlinear problems[R]. Los Alamos, NM: Los Alamos Scientific Lab, 1955: Report No. LA-1940.
|
[25] |
LANDOU L D, LIFSHITZ E M. Mechanics[M]. 3rd ed. Moscow: Nauka, 1993: 79.
|
[26] |
ZHANG X, CHEN Y. Rogue wave and a pair of resonance stripe solitons to a reduced (3+1)-dimensional Jimbo-Miwa equation[J]. Communications in Nonlinear Science Numerical Simulation, 2017, 52: 24-31.
|
[27] |
CHEN M D, LI X, WANG Y, et al. A pair of resonance stripe solitons and lump solutions to a reduced (3+1)-dimensional nonlinear evolution equation[J]. Communications in Theoretical Physics, 2017, 67(6): 595-600.
|
[28] |
HUANG L L, CHEN Y. Lump solutions and interaction phenomenon for (2+1)-dimensional Sawada-Kotera equation[J]. Communications in Theoretical Physics, 2017, 67(5): 473-478.
|
[29] |
ZHANG Xiaoen, CHEN Yong. Deformation rogue wave to the (2+1)-dimensional KdV equation[J]. Nonliear Dynamics, 2017, 90: 755-763.)
|