Professor SATO Masayuki
Faculty, Affiliation
Faculty of Mathematics and Physics, Institute of Science and Engineering
College and School Educational Field
Division of Mathematical and Physical Science, Graduate School of Natural Science and Technology
Division of Mathematical and Physical Sciences, Graduate School of Natural Science and Technology
School of Mathematics and Physics, College of Science and Engineering
Laboratory
Laboratory of Nonlinear Physics TEL:076-264-6077 FAX:076-264-5739
Academic Background
【Academic background(Doctoral/Master's Degree)】
Science University of Tokyo Doctor Graduate School, Division of Natural Science 199203 Completed
【Academic background(Bachelor's Degree)】
Science University of Tokyo 198603
Career
Science University of Tokyo Department of Physics(1993/06/01-1998/05/30)
Cornell University Department of Physics, LASSP(1998/04/15-2004/03/31)
Cornell University Department of Physics, LASSP(2004/04/01-2005/02/10)
Year & Month of Birth
1962/08
Academic Society
American Physical Society
IEICE
Award
Specialities
Intrinsic localized mode solid state lattice MEMS
Speciality Keywords
Intrinsic localized mode Laser MEMS
Research Themes
intrinsic localized modes in solids
Stydies of MEMS oscillators
Books
Papers
- Counting discrete emission steps from intrinsic localized modes in a quasi-one-dimensional antiferromagnetic lattice PHYSICAL REVIEW B 71 - 214306 2005
- Direct observation of the discrete character of intrinsic localized modes in an antiferromagnet NATURE 432 486-488 2004
- Optical manipulation of intrinsic vibrational energy in cantilever arrays EUROPHYSICS LETTERS 66 3 318-323 2004/05
- Study of intrinsic localized vibrational modes in micromechanical oscillator arrays CHAOS 13 2 702-715 2003/06
- Observation of Locked Intrinsic Localized Vibrational Modes in a Micromechanical Oscillator Array PHYSICAL REVIEW LETTERS 90 4 044102(1-4) 2003/01
- Colloquium: Nonlinear energy localization and its manipulation in micromechanical oscillator arrays M. Sato, B. E. Hubbard, and A. J. Sievers REVIEWS OF MODERN PHYSICS 78 1 137-157 2006/01
- Controlled switching of intrinsic localized modes in a one-dimensional antiferromagnet J.P. Wrubel, M. Sato, and A.J. Sievers PHYSICAL REVIEW LETTERS 95 26 264101 2005/12
- Mobile localized excitations in the acoustic spectrum of a nonlinear micromechanical cantilever array M. Sato and A.J. Sievers PHYSICAL REVIEW LETTERS 98 214101 2007/05
- Parallel Energy Analysis of a Pure Electron Plasma with a Drifting Maxwellian Distribution Yukihiro Soga,Youngsoo Park,Masayuki Sato,Nozomi Suzutani,Takashi Kikuchi Journal of the Physical Society of Japan 92 10 2023/10/15
- Propagating intrinsic localized mode in a cyclic, dissipative, self-dual one-dimensional nonlinear transmission line M. Sato,H. Furusawa,Y. Soga,A. J. Sievers Physical Review E 107 3 2023/03/07
- Experimental investigation of supertransmission for an intrinsic localized mode in a cyclic nonlinear transmission line M. Sato,H. Furusawa,M. Sakai,Y. Soga,A. J. Sievers Chaos: An Interdisciplinary Journal of Nonlinear Science 32 3 033118 2022/03
- Experimental study of intrinsic localized mode mobility in a cyclic, balanced, 1D nonlinear transmission line M. Sato,H. Furusawa,M. Sakai,Y. Soga,A. J. Sievers Chaos: An Interdisciplinary Journal of Nonlinear Science 33 7 2023/07/01
- Propagating intrinsic localized mode in a cyclic, dissipative, self-dual one-dimensional nonlinear transmission line M. Sato, H. Furusawa, Y. Soga, and A. J. Sievers Phys. Rev. E 107 034202 2023/03/07
- Resonance of a Traveling Intrinsic Localized Mode in Balanced Cubic and 5th Order Nonlinear Transmission Lines Masayuki Sato, Hiroki Furusawa, Yukihiro Soga proceedings of NOLTA 2022 2022/12/01
- Experimental investigation of supertransmission for an intrinsic localized mode in a cyclic nonlinear transmission line M. Sato, H. Furusawa, M. Sakai, Y. Soga and A. J. Sievers CHAOS 32 033118 2022/03/17
- Driven Intrinsic Localized Modes in Soft Nonlinear Microscopic and Macroscopic Lattices Masayuki Sato, Masato Sakai, and A. J. Sievers Springer Proceed. Complexity, Yiannis Dimotikalis and Christos H. Skiadas (Eds): 13TH CHAOTIC MODELING AND SIMULATION INTERNATIONAL CONFERENCE 2021/10/01
- A Single-Shot Method for Measuring the Energy Spectra of Pure Electron Plasmas Driven by E × B Rotation Youngsoo PARK, Yukihiro SOGA, Masayuki SATO, Nozomi SUZUTANI and Takashi KIKUCHI Plasma and Fusion Res. 14 1201046 2019
- Intersite resistance effect on a saturable nonlinear electrical transmission line Kazaki Miyasaka, Akane Nishizaki, Masayuki Sato and A. J. Sievers Proceedings of NOLTA2018 2018
- Experimentally observed evolution between dynamic patterns and intrinsic localized modes in a driven nonlinear electrical cyclic lattice S. Shige, K. Miyasaka, W. Shi, Y. Soga, M. Sato and A. J. Sievers EPL 121 30003 2018
- Linear response measurement of single cantilevers in their high amplitude, nonlinear state Masayuki Sato, Yurina Sada, Shouma Shige, B. Rob Ilic, A. J. Sievers NOLTA, IEICE 8 2 107 2017/04/01
- Intrinsic Localized Modes in Saturable Inductor Transmission Lines Masayuki Sato, Toshio Mukaide, Takahiro Nakaguchi, Albert J. Sievers Proceedings of NOLTA2016
- Inductive intrinsic localized modes in a one-dimensional nonlinear electric transmission line M. Sato, T. Mukaide, and T. Nakaguchi and A. J. Sievers Phys. Rev. E 94 012223 2016
- Linear local modes produced by an intrinsic local mode in a saturable nonlinear lattice S. Shige, W. Shi, T. Ishikawa, T. Nakaguchi, M. Sato and A. J. Sievers NOLTA2015 proceedings 2015
- Linear response measurement of both a single and an array of cantilevers in a high amplitude nonlinear state M. Sato, Y. Sada, S. Shige and A. J. Sievers NOLTA2015 proceedings 2015
- Supertransmission channel for an intrinsic localized mode in a one-dimensional nonlinear physical lattice M. Sato, T. Nakaguchi, T. Ishikawa, S. Shige, Y. Soga, Y. Doi, and A. J. Sievers Chaos 25 103122 2015
- Dynamics of impurity attraction and repulsion of an intrinsic localized mode in a driven 1-D cantilever array M. Sato, Y. Sada, W. Shi, S. Shige, T. Ishikawa, Y. Soga, B. E. Hubbard, B. Ilic and A. J. Sievers Chaos 25 013103 2015
- witching dynamics and linear response spectra of a driven one-dimensional nonlinear lattice containing an intrinsic localized mode M. Sato, S. Imai, N. Fujita, W. Shi, Y. Takao, Y. Sada, B. E. Hubbard, B. Ilic, and A. J. Sievers PHYSICAL REVIEW E 87 1 012920(pp1-15) 2013/01
- Thermally populated intrinsic localized modes in pure alkali halide crystals A. J. Sievers, M. Sato, J. B. Page, and T. Rössler PHYSICAL REVIEW B 88 104305(pp1-7) 2013/10
- Intrinsic Localized Mode in an Electric Lattice Containing MOS-Capacitors W. Shi, S. Shige, H. Hasebe, M. Sato, and A. J. Sievers Proceedings of the International Symposium on Nonlinear Theory and its Applications 330-333 2013/09
- Intrinsic localized modes in a nonlinear electrical lattice with saturable nonlinearity W. Shi, S. Shige, Y. Soga, M. Sato and A. J. Sievers EUROPHYSICS LETTERS 103 30006 (pp1-6) 2013/08
- Bifurcation Dynamics of a Perturbed Intrinsic Localized Mode in a Driven Micromechanical Array M. Sato, Y. Takao, Y. Sada, W. Shi, S. Shige, and A. J. Sievers Nonlinear Theory and Its Applications, IEICE 4 225-231 2013/07
- Management of localized energy in discrete nonlinear transmission lines M.Sato, S.Yasui, M. Kimura, T. Hikihara and A. J. Sievers EUROPHYSICS LETTERS 80 30002 2007/11
- Visualization intrinsic localized modes with a nonlinear micromechanical array M. Sato and A. J. Sievers LOW TEMPERATURE PHYSICS 34 N7 687-694 2008/07
- Experimental and numerical exploration of intrinsic localized modes in an atomic lattice M. Sato and A. J. Sievers JOURNAL OF BIOLOGICAL PHYSICS 35, pp 57-72 2009/02
Conference Presentations
- Intersite Resistance Effect on a Saturable Nonlinear Electrical Transmission Line(conference:NOLTA)(2018/09/05)
- Experiments and Simulations of Driven-damped Intrinsic Localized Modes(conference:international work shop: Nonlinear localization in lattices, held at AKSS, Spetses, Greece)(2018/06/18)
- Lattice spatial modes and switching to ILMs in an electric transmission line(conference:International Symposium on Intrinsic Localized Modes, 30th Anniversary of Discovery)(2018/01/26)
- Experiments and simulations of stationary and traveling Intrinsic localized modes (conference:International Symposium on Intrinsic Localized Modes, 30th Anniversary of Discovery)(2018/01/26)
- 可飽和非線形の DNLS モデルによる ILM の速度解析(2017/12/02)
- 可飽和非線形DNLSモデルを用いたILMの速度解析(conference:応用数理学会)(2017/09/07)
- Traveling Intrinsic Localized Modes in Nonlinear Driven Damped Lattices(conference:International Workshop on Nonlinear Energy Localization in Crystals and Related Media)(2016/12/02)
- Intrinsic Localized Modes in Saturable Inductor Transmission Lines(conference:NOLTA2016)(2016/11/30)
- 進行波励起ドライバーの作成(conference:物理学会北陸支部例会)(2016/11/16)
- 非線形 Schrdinger 格子での局在励起の走行(conference:RIMS研究集会)(2016/10/16)
- Experiments and simulations of traveling intrinsic localized modes in nonlinear arrays(conference:Workshop on Integrable and nonintegrable lattice models: theory and computation)(2016/07/15)
- Linear Response Measurement of Both a Single and an Array of Cantilevers in a High Amplitude Nonlinear State(conference:NOLTA2015)(2015/12/03)
- Linear Local Modes Produced by an Intrinsic Local Mode in a Saturable Nonlinear Lattice(conference:NOLTA2015)(2015/12/04)
- Intrinsic Localized Modes in Micro-Cantilever Arrays(conference:"Nanomechanical systems: from new materials to new application")(2015/07/26)
- Intrinsic Localized Mode in an Electric Lattice Containing MOS-Capacitors(conference:NOLTA 2013)(2013/09/10)
Others
Arts and Fieldwork
Patent
Theme to the desired joint research
○nonlinear vibration, nonlinear localization, non-integrable nonlinear lattice
Grant-in-Aid for Scientific Research
○「量子格子系における非線形局在励起の研究」(2006-2007)
○「ワンパルステラヘルツ分光器の作成」(2009-)
○「ワンパルステラヘルツ分光器の作成」(2009-2010)
Competitive research funding,Contribution
Collaborative research,Consignment study
Classes (Bachelors)
○Teaching Practicum IV(2022)
○Earth Sciences for Education(2022)
○Teaching Practicum V(2022)
○Teaching Practicum D(2022)
○Teaching Practicum V(2022)
○Teaching Practicum D(2022)
○Teaching Practicum IV(2022)
○Teaching Practicum C(2022)
○Biology for Education(2022)
○Teaching Practicum C(2022)
○Chemistry for Education(2022)
○Electromagnetism 2b(2022)
○Physics Experiments 2(2022)
○Electronics b(2022)
○Electronics a(2022)
○Electromagnetism 2a(2022)
○Physics Experiments 1(2022)
○Solid State Physics(2022)
○Solid State Physics(2022)
○Physics Experiments 1(2022)
○Physics Experiments 2(2022)
○Fundamental Physics 1B(2022)
○Fundamental Physics 1(2022)
○Fundamental Physics 1(2022)
○Fundamental Physics 1A(2022)
○Physics for Education(2022)
○Electromagnetism 2(2021)
○Fundamental Physics 1B(2021)
○Fundamental Physics 1A(2021)
○Physics Experiments 2(2021)
○Solid State Physics(2021)
○Physics Experiments 1(2021)
○Physics for Education(2021)
○Physics for Education(2021)
○Chemistry for Education(2021)
○Biology for Education(2021)
○Earth Sciences for Education(2021)
○Teaching Practicum V(2021)
○Teaching Practicum IV(2021)
○Practical Seminar for Teaching Profession C / Junior High School・High School(2017)
○Physical Mathematics 2(2017)
○Earth Sciences for Education(2017)
○GS English Language for Undergraduates II (English for Science and Engineering)(2017)
○Physics for Education(2017)
○Physics Experiments 1(2017)
○Physics Experiments 2(2017)
○Physics for Education(2017)
○GS English Language for Undergraduates I (English for Science and Engineering)(2017)
○Introduction to Region-studies(2017)
○Experiments in Fundamental Physics(2017)
○Fundamental Physics 1(2017)
○Chemistry for Education(2017)
○Physics for Education(2017)
○Solid State Physics(2017)
○Biology for Education(2017)
○Introduction to Region-studies(2016)
○Physics Experiments 2(2016)
○Practical Seminar for Teaching Profession C / Junior High School・High School(2016)
○Solid State Physics(2016)
○Physics Experiments 1(2016)
○Physical Mathematics 2(2016)
○Experiments in Fundamental Physics(2016)
○Fundamental Physics 1(2016)
○Presentation and Debate (Freshman Seminar II)(2016)
○Freshman Seminar I(2016)
Classes (Graduate Schools)
○International Internship for Mathematical and Physical Sciences(2022)
○Surveys of Physics(2022)
○Nonlinear Physics(2022)
○Nonlinear Physics(2022)
○Surveys of Physics(2022)
○Utilization of Scientific instruments B(2022)
○Physics Education b(2022)
○Utilization of Scientific instruments B(2022)
○Physics of Oscillations and Waves b(2022)
○Utilization of Scientific instruments B(2022)
○Utilization of Scientific instruments B(2022)
○Physics Education a(2022)
○Utilization of Scientific instruments B(2022)
○Optical Physics b(2022)
○Utilization of Scientific instruments B(2022)
○Utilization of Scientific instruments B(2022)
○Optical Physics a(2022)
○Utilization of Scientific instruments B(2022)
○Physics of Oscillations and Waves a(2022)
○Utilization of Scientific instruments B(2021)
○Research Ethics(2021)
○Physics of Oscillations and Waves a(2021)
○Physics of Oscillations and Waves b(2021)
○Physics Education a(2021)
○Research Ethics(2021)
○Fostering the independence of researchers(2021)
○Fostering the independence of researchers(2021)
○Physics Education b(2021)
○Research Work B(2021)
○Research Work B(2021)
○Utilization of Scientific instruments B(2021)
○Physics of Oscillations and Waves a(2017)
○Seminar B(2017)
○Research Work B(2017)
○Nonlinear Physics(2017)
○Nonlinear Physics(2017)
○Nonlinear Physics(2017)
○Nonlinear Physics(2017)
○Physics Education a(2017)
○Physics Education b(2017)
○Optical Physics b(2017)
○Optical Physics a(2017)
○Physics of Oscillations and Waves b(2017)
○Exercise B(2017)
○Physics Education b(2016)
○Seminar B(2016)
○Optical Physics(2016)
○Physics of Oscillations and Waves a(2016)
○Physics of Oscillations and Waves b(2016)
○Research Work B(2016)
○Nonlinear Physics(2016)
○Physics Education a(2016)
○Exercise B(2016)