Dmitry Sergeevich Agafontsev

Doctorate at Physics and Mathematics from L. D. Landau Institute For Theoretical Physics, Moscow, Russia (2008). He is currently senior researcher at Shirshov Institute of Oceanology, Moscow, Russia. Has experience in Physics and Mathematics, focusing on Mathematical Physics.

Informações coletadas do Lattes em 04/11/2022

Acadêmico

Formação acadêmica

Doutorado em Physics and Mathematics

2005 - 2008

Landau L. D. Institute Of Theoretical Physics
Título: Stability and collapse of solitary waves near transition from supercritical to subcritical bifurcation in hydrodynamic systems
Orientador: Prof. E.A.Kuznetsov

Mestrado em General and Applied Physics

2003 - 2005

Moscow Institute Of Physics And Technology
Título: Stability of solitary waves, Ano de Obtenção: 2005
Orientador: Prof. E.A.Kuznetsov

Graduação em Physics and Mathematics

1999 - 2003

Moscow Institute Of Physics And Technology

Pós-doutorado

2008 - 2009

Pós-Doutorado. , École Normale Supérieure de Cachan, ENS/Cachan, França.

Idiomas

Inglês

Compreende Bem, Fala Bem, Lê Bem, Escreve Bem.

Russo

Compreende Bem, Fala Bem, Lê Bem, Escreve Bem.

Áreas de atuação

Grande área: Ciências Exatas e da Terra / Área: Matemática / Subárea: Matemática Aplicada/Especialidade: Física Matemática.

Participação em eventos

Annual Conference on Nonlinear Dynamics. Growing of integrable turbulence: new results. 2021. (Congresso).

Seminar.Solitonic model of the condensate. 2021. (Seminário).

Seminar.Growing of integrable turbulence: new results. 2021. (Seminário).

Annual Conference on Nonlinear Dynamics. Rogue waves with rational profiles in unstable condensate and its solitonic model. 2020. (Congresso).

Seminar.Adiabatically growing integrable turbulence. 2020. (Seminário).

Annual Conference on Nonlinear Dynamics. Rogue waves emerging from incoherent wave source of high nonlinearity. 2019. (Congresso).

Solitons, Collapses and Turbulence.Generation of rogue waves from random wavefield of high nonlinearity. 2019. (Simpósio).

Solitons, Collapses and Turbulence.Strongly interacting soliton gas. 2019. (Simpósio).

Annual Conference on Nonlinear Dynamics. Strongly interacting soliton gas and formation of rogue waves. 2018. (Congresso).

Annual Conference on Nonlinear Dynamics. Development of high vorticity structures and geometrical properties of the vortex line representation. 2018. (Congresso).

Dynamics Days Europe 2018.Strongly interacting soliton gas and formation of rogue waves. 2018. (Simpósio).

16th European Turbulence Conference 2017.Universal behavior of high-vorticity regions developing in 3D incompressible ideal flows. 2017. (Simpósio).

Annual Conference on Nonlinear Dynamics. Universal characteristics of statistically steady state for integrable turbulence developing from partially incoherent wave initial conditions. 2017. (Congresso).

Dynamics in multi-component systems: mathematical and physical aspects.Integrable turbulence and formation of rogue waves: new results. 2017. (Oficina).

EGU General Assembly.Uniform strongly interacting soliton gas in the frame of the Nonlinear Schrodinger Equation. 2017. (Simpósio).

IUTAM Symposium on Dynamics and Topology of Vorticity and Vortices.High-vorticity structures development as a route to the Kolmogorov turbulence in 3D incompressible flows. 2017. (Simpósio).

Landau Days - 2017.Universal scaling of extreme vorticity regions and the structure of the vortex lines representation. 2017. (Simpósio).

Solitons, Collapses and Turbulence.Statistic of strongly interacting soliton gas and formation of rogue waves. 2017. (Simpósio).

Solitons, Collapses and Turbulence.Development of high-vorticity structures in incompressible 3D Euler equations: comparison with exact solution. 2017. (Simpósio).

Solitons, Collapses and Turbulence.Towards developed hydrodynamic turbulence. 2017. (Simpósio).

Annual Conference on Nonlinear Dynamics. Asymptotic solution for high vorticity regions in incompressible 3D Euler equations. 2016. (Congresso).

Landau Days - 2016.Folding of vortex lines in hydrodynamic turbulence: new results. 2016. (Simpósio).

Landau Days - 2016.Collisions of coherent structures and formation of rogue waves in NLSE. 2016. (Simpósio).

15th European Turbulence Conference 2015.The role of high vorticity structures in development of Kolmogorov turbulent spectra in inviscid flow. 2015. (Simpósio).

Annual Conference on Nonlinear Dynamics. Integrable turbulence generated from modulation instability of cnoidal waves. 2015. (Congresso).

Landau Days - 2015.Folding of vorticity field as a route to the Kolmogorov spectrum. 2015. (Simpósio).

Annual Conference on Nonlinear Dynamics. Integrable turbulence and formation of rogue waves. 2014. (Congresso).

Solitons, Collapses and Turbulence.Development of high vorticity structures in incompressible 3D Euler equations. 2014. (Simpósio).

Annual Conference on Nonlinear Dynamics. Waves statistics for Ablowitz-Ladik system. 2013. (Congresso).

EGU General Assembly.Statistics of extreme waves in the framework of one-dimensional Nonlinear Schrodinger Equation. 2013. (Simpósio).

Progress In Electromagnetics Research Symposium.Influence of six-wave interactions and saturated nonlinearity on the statistics of waves in the framework of one-dimensional generalized NLS equations. 2013. (Simpósio).

Annual Conference on Nonlinear Dynamics. Extreme waves statistics in the framework of one-dimensional Nonlinear Schrodinger Equation. 2012. (Congresso).

Progress In Electromagnetics Research Symposium.Rogue Waves Statistics in the Framework of One-dimensional Generalized Nonlinear Schrodinger Equation. 2012. (Simpósio).

Solitons, Collapses and Turbulence.Rogue Waves Statistics in the Framework of One-dimensional Generalized Nonlinear Schrodinger Equation. 2012. (Simpósio).

Annual Conference on Nonlinear Dynamics. Rogue Waves Statistics in the Framework of One-dimensional Generalized Nonlinear Schrodinger Equation. 2011. (Congresso).

Progress In Electromagnetics Research Symposium.One-dimensional wave turbulence in the framework of generalized Nonlinear Schrodinger equation. 2011. (Simpósio).

Annual Conference on Nonlinear Dynamics. One-dimensional wave turbulence in the framework of generalized Nonlinear Schrodinger equation. 2010. (Congresso).

Solitons, Collapses and Turbulence.Stability and collapse of solitons near transition from supercritical to subcritical bifurcation in hydrodynamical systems. 2009. (Simpósio).

Annual Conference on Nonlinear Dynamics. Stability and collapse of solitary waves near transition from supercritical to subcritical bifurcation in hydrodynamic systems. 2008. (Congresso).

Nonlinear Waves - 2008. Bifurcations and stability of surface envelope solitary waves for a liquid with finite depth. 2008. (Congresso).

Frontiers of Nonlinear Physics.Bifurcation, stability and collapse of internal solitary waves near critical density ratio. 2007. (Simpósio).

Solitons, Collapses and Turbulence.Bifurcation, stability and collapse of internal solitary waves near critical density ratio. 2007. (Simpósio).

Nonlinear Waves - 2006. Bifurcations and stability of solitons in internal one-dimensional wave system. 2006. (Congresso).

Annual Conference on Nonlinear Dynamics. Instability and collapse of internal solitary waves. 2005. (Congresso).

Participação em bancas

Aluno: Jose Manuel Escorcia Tafur

MAILYBAEV, A. A.; NACHBIN, A.; LUSHNIKOV, P. M.; THALABARD, S.;AGAFONTSEV D.S.. Post-Blowup Dynamics for the Nonlinear Schrodinger Equation. 2021 - Instituto Nacional de Matemática Pura e Aplicada.

Aluno: Kopyev Alexei Viktorovich

ZYBIN, K. P.; PETROSYAN, A. S.;AGAFONTSEV D.S.; OSTAPENKO, N. A.; NIKITIN, N. V.. Statistical properties of the velocity gradient tensor in an isotropic incompressible turbulent flow. 2019 - Lebedev P. N. Physical Institute.

Orientou

Sergei Suchkov

Início: 2021; Novosibirsk State University;

Produções bibliográficas

AGAFONTSEV, D. S. ; RANDOUX, S. ; SURET, P. . Extreme rogue wave generation from narrowband partially coherent waves. PHYSICAL REVIEW E , v. 103, p. 032209, 2021.
AGAFONTSEV, D. S. ; GELASH, A. A. . Rogue Waves With Rational Profiles in Unstable Condensate and Its Solitonic Model. Frontiers in Physics , v. 9, p. 610896, 2021.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Stability of Tangential Discontinuity for the Vortex Pancakes. JETP LETTERS , v. 114, p. 71-75, 2021.
GELASH, ANDREY ; AGAFONTSEV, DMITRY ; SURET, PIERRE ; RANDOUX, STÉPHANE . Solitonic model of the condensate. PHYSICAL REVIEW E , v. 104, p. 044213, 2021.
AGAFONTSEV, D. S. ; ZAKHAROV, V. E. . Growing of integrable turbulence. LOW TEMPERATURE PHYSICS , v. 46, p. 786-791, 2020.
AGAFONTSEV, DMITRII S. ; KUZNETSOV, EVGENII A. ; MAILYBAEV, ALEXEI A. ; SERESHCHENKO, EVGENII V. . Compressible vortex structures and their role in the onset of hydrodynamic turbulence. PHYSICS-USPEKHI , v. 65, p. 038875, 2020.
AGAFONTSEV, D S ; KUZNETSOV, E A ; MAILYBAEV, A A . Compressible structures in incompressible hydrodynamics and their role in turbulence onset. IOP CONFERENCE SERIES. EARTH AND ENVIRONMENTAL SCIENCE (ONLINE) , v. 231, p. 012002, 2019.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Statistical Properties of the Velocity Field for the 3D Hydrodynamic Turbulence Onset. JETP LETTERS , v. 110, p. 121-126, 2019.
KRAYCH, ADRIEN E. ; AGAFONTSEV, DMITRY ; RANDOUX, STÉPHANE ; SURET, PIERRE . Statistical Properties of the Nonlinear Stage of Modulation Instability in Fiber Optics. PHYSICAL REVIEW LETTERS , v. 123, p. 093902, 2019.
GELASH, ANDREY ; AGAFONTSEV, DMITRY ; ZAKHAROV, VLADIMIR ; EL, GENNADY ; RANDOUX, STÉPHANE ; SURET, PIERRE . Bound State Soliton Gas Dynamics Underlying the Spontaneous Modulational Instability. PHYSICAL REVIEW LETTERS , v. 123, p. 234102, 2019.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Development of high vorticity structures and geometrical properties of the vortex line representation. PHYSICS OF FLUIDS , v. 30, p. 095104, 2018.
GELASH, A. A. ; AGAFONTSEV, D. S. . Strongly interacting soliton gas and formation of rogue waves. PHYSICAL REVIEW E , v. 98, p. 042210, 2018.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Asymptotic solution for high-vorticity regions in incompressible three-dimensional Eulerequations. JOURNAL OF FLUID MECHANICS , v. 813, p. R1, 2017.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Development of high vorticity in incompressible 3D Euler equations: Influence of initial conditions. JETP LETTERS , v. 104, p. 685-689, 2016.
AGAFONTSEV, D S ; ZAKHAROV, V E . Integrable turbulence generated from modulational instability of cnoidal waves. NONLINEARITY , v. 29, p. 3551-3578, 2016.
AGAFONTSEV, D.S. ; ZAKHAROV, V.E. . Intermittency in generalized NLS equation with focusing six-wave interactions. PHYSICS LETTERS A , v. 379, p. 2586-2590, 2015.
AGAFONTSEV, D. S. ; KUZNETSOV, E. A. ; MAILYBAEV, A. A. . Development of high vorticity structures in incompressible 3D Euler equations. Physics of Fluids (1994) , v. 27, p. 085102, 2015.
AGAFONTSEV, D S ; ZAKHAROV, V E . Integrable turbulence and formation of rogue waves. NONLINEARITY , v. 28, p. 2791-2821, 2015.
AGAFONTSEV, D. S. . Extreme waves statistics for the Ablowitz-Ladik system. JETP LETTERS , v. 98, p. 731-734, 2014.
2010 FINOT, C. ; MILLOT, G. ; GARNIER, J. ; GENTY, G. ; AGAFONTSEV, D. ; DIAS, F. . Extreme events in optics: Challenges of the MANUREVA project. THE EUROPEAN PHYSICAL JOURNAL. SPECIAL TOPICS (ONLINE) , v. 185, p. 125-133, 2010.
AGAFONTSEV, D. S. . On the modulation instability development in optical fiber systems. JETP LETTERS , v. 91, p. 630-635, 2010.
AGAFONTSEV, D. S. . Bifurcations and the stability of the surface envelope solitons for a finite-depth fluid. JETP LETTERS , v. 87, p. 195-199, 2008.
AGAFONTSEV, D. S. ; DIAS, F. ; KUZNETSOV, E. A. . Collapse of solitary waves near the transition from supercritical to subcritical bifurcations. JETP LETTERS , v. 87, p. 667-671, 2008.
KUZNETSOV, E.A. ; AGAFONTSEV, D.S. ; DIAS, F. . Bifurcations of solitary waves. J MATH PHYS ANAL GEO , v. 4, p. 529-550, 2008.
AGAFONTSEV, D.S. ; DIAS, F. ; KUZNETSOV, E.A. . Deep-water internal solitary waves near critical density ratio. PHYSICA D-NONLINEAR PHENOMENA , v. 225, p. 153-168, 2007.
AGAFONTSEV, D. S. ; DIAS, F. ; KUZNETSOV, E. A. . Bifurcations and stability of internal solitary waves. JETP LETTERS , v. 83, p. 201-205, 2006.
GELASH, A. ; AGAFONTSEV, D. S. ; ZAKHAROV, V. ; EL, G. ; RANDOUX, S. ; SURET, P. . Bound state soliton gas dynamics underlying the noise-induced modulational instability 2019 (Preprint arXiv:1907.07914).
D. S. AGAFONTSEV ; ZAKHAROV, V. . Oscillatory dynamics of the classical Nonlinear Schrodinger equation 2014 (Preprint arXiv:1404.6088).
D. S. AGAFONTSEV . Waves statistics for generalized one-dimensional Nonlinear Schrodinger Equation with saturated nonlinearity 2013 (Preprint arXiv:1310.3618).
D. AGAFONTSEV ; V. ZAKHAROV . Rogue waves statistics in the framework of one-dimensional Generalized Nonlinear Schrodinger Equation 2012 (Preprint arXiv:1202.5763).

Prêmios

2015

Best published paper-2015 (competition of young researchers), Shirshov Institute of Oceanology of RAS.

2009

Dynasty Foundation scholarship, Dynasty Foundation, Russia.

2008

Russian Science Support Foundation scholarship, .

2008

Dynasty Foundation scholarship, Dynasty Foundation, Russia.

2008

Julich-Landau scholarship, .

2007

Julich-Landau scholarship, .

2006

Julich-Landau scholarship, .

2005

Dynasty Foundation scholarship, Dynasty Foundation, Russia.

2004

Dynasty Foundation scholarship, Dynasty Foundation, Russia.

1999

Second Degree Diploma, Russian School Physics Olympiad.

1999

Third Degree Diploma, Soros School Physics Olympiad.

1999

Third Degree Diploma, Soros School Mathematics Olympiad.

Histórico profissional

Endereço profissional

Shirshov Institute of Oceanology. , 36 Nakhimovskii prospekt, Moscow, 117997 - Moscow, - Rússia, Telefone: (7499) 1246329, URL da Homepage:

Experiência profissional

2020 - 2020

Instituto Nacional de matematica Pura e Aplicada