Multi-Sasa Satsuma rogue events and multi-wave trains generation in a nonlinear left-handed transmission line

We demonstrate at the first time that the left-handed transmission line with varactor diodes can support higher-order effects. So, we establish at the first time, a nonlinear Schrödinger equation including second-, third- and fourth- order dispersions and self- and quintic-phase modulations. We use...

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Published inEuropean physical journal plus Vol. 136; no. 1; p. 49
Main Authors Onana Essama, Bedel Giscard, Ndjakomo Essiane, Salome, Atangana, Jacques
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 06.01.2021
Springer Nature B.V
Subjects
Applied and Technical Physics
Atomic
Complex Systems
Condensed Matter Physics
Energy
Fluid mechanics
Mathematical and Computational Physics
Molecular
Optical and Plasma Physics
Optics
Phase modulation
Physics
Physics and Astronomy
Propagation
Regular Article
Schrodinger equation
Solitary waves
Theoretical
Transmission lines
Varactor diodes
Wave packets
Online AccessGet full text
ISSN2190-5444
2190-5444
DOI10.1140/epjp/s13360-020-00981-w

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Abstract We demonstrate at the first time that the left-handed transmission line with varactor diodes can support higher-order effects. So, we establish at the first time, a nonlinear Schrödinger equation including second-, third- and fourth- order dispersions and self- and quintic-phase modulations. We use collective coordinate’s theory in order to give a good characterization of the light pulse. Moreover, we introduce a new Ansatz function called “type I Ansatz function” with seven coordinates compared to the conventional Ansatz function with six coordinates. The additional coordinate called “nonlinear phase” will give supplemental details on internal deformation which occurs during the propagation of the soliton light pulse. We find that the action of quintic-phase modulation on soliton light pulse leads to the generation of Peregrine solitons and several narrow wave trains. The introduction of third-order dispersion induces the appearance of multi-Sasa–Satsuma rogue events. Further, we introduce fourth-order dispersion and we assist to the generation of Parallel wave trains associated with strange wave’s field. Considering an increase in frequency combined to the action of all those effects, the precedent Parallel wave trains are changed into conventional Sasa–Satsuma rogue waves. Furthermore, we present physical conditions and theoretical frequencies leading to the generation of those specific extreme events. The new introduced Ansatz function improves the comprehension of rogue wave’s mechanism of generation.
AbstractList We demonstrate at the first time that the left-handed transmission line with varactor diodes can support higher-order effects. So, we establish at the first time, a nonlinear Schrödinger equation including second-, third- and fourth- order dispersions and self- and quintic-phase modulations. We use collective coordinate’s theory in order to give a good characterization of the light pulse. Moreover, we introduce a new Ansatz function called “type I Ansatz function” with seven coordinates compared to the conventional Ansatz function with six coordinates. The additional coordinate called “nonlinear phase” will give supplemental details on internal deformation which occurs during the propagation of the soliton light pulse. We find that the action of quintic-phase modulation on soliton light pulse leads to the generation of Peregrine solitons and several narrow wave trains. The introduction of third-order dispersion induces the appearance of multi-Sasa–Satsuma rogue events. Further, we introduce fourth-order dispersion and we assist to the generation of Parallel wave trains associated with strange wave’s field. Considering an increase in frequency combined to the action of all those effects, the precedent Parallel wave trains are changed into conventional Sasa–Satsuma rogue waves. Furthermore, we present physical conditions and theoretical frequencies leading to the generation of those specific extreme events. The new introduced Ansatz function improves the comprehension of rogue wave’s mechanism of generation.
ArticleNumber 49
Author Atangana, Jacques
Onana Essama, Bedel Giscard
Ndjakomo Essiane, Salome
Author_xml – sequence: 1
  givenname: Bedel Giscard
  orcidid: 0000-0002-9900-0419
  surname: Onana Essama
  fullname: Onana Essama, Bedel Giscard
  email: onanaessama@yahoo.fr
  organization: Applied Biotechnology and Engineering Laboratory, Department of Electrical Engineering, Higher Technical Teachers, Training College (HTTTC) of EBOLOWA, University of Yaounde I
– sequence: 2
  givenname: Salome
  surname: Ndjakomo Essiane
  fullname: Ndjakomo Essiane, Salome
  organization: Applied Biotechnology and Engineering Laboratory, Department of Electrical Engineering, Higher Technical Teachers, Training College (HTTTC) of EBOLOWA, University of Yaounde I
– sequence: 3
  givenname: Jacques
  surname: Atangana
  fullname: Atangana, Jacques
  organization: Higher Teacher Training College of Yaounde, University of Yaounde I
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Snippet We demonstrate at the first time that the left-handed transmission line with varactor diodes can support higher-order effects. So, we establish at the first...
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SubjectTerms Applied and Technical Physics
Atomic
Complex Systems
Condensed Matter Physics
Energy
Fluid mechanics
Mathematical and Computational Physics
Molecular
Optical and Plasma Physics
Optics
Phase modulation
Physics
Physics and Astronomy
Propagation
Regular Article
Schrodinger equation
Solitary waves
Theoretical
Transmission lines
Varactor diodes
Wave packets
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Title Multi-Sasa Satsuma rogue events and multi-wave trains generation in a nonlinear left-handed transmission line
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