Fundamental modes of a trapped probe photon in optical fibers conveying periodic pulse trains

@article{Dikand2010FundamentalMO,
  title={Fundamental modes of a trapped probe photon in optical fibers conveying periodic pulse trains},
  author={Alain Mo{\'i}se Dikand{\'e}},
  journal={Physical Review A},
  year={2010},
  volume={81}
}
  • A. Dikandé
  • Published 15 January 2010
  • Physics
  • Physical Review A
Wave modes induced by cross-phase reshaping of a probe photon in the guiding structure of a periodic train of temporal pulses are investigated theoretically with emphasis on exact solutions to the wave equation for the probe. The study has direct connection with recent advances on the issue of light control by light, the focus being on the trapping of a low-power probe by a temporal sequence of periodically matched high-power pulses of a dispersion-managed optical fiber. The problem is… Expand

Figures from this paper

Induced soliton ejection from a continuous-wave source waveguided by an optical pulse-soliton train
It has been established for some time that high-power pump can trap a probe beam of lower intensity that is simultaneously propagating in a Kerr-type optical medium, inducing a focusing of the probeExpand
Pulse train uniformity and nonlinear dynamics of soliton crystals in mode-locked fiber ring lasers
The evolution of soliton crystal structures is analytically and numerically investigated in passively mode-locked fiber lasers by means of the nonlinear rotation of polarization. Four parameters areExpand
Raman self-induced-transparency soliton trains in hollow-core photonic crystals
Periodic trains of non-topological dark and bright optical solitons are proposed as one of the possible nonlinear optical structures that could be generated during Raman transitions in nonlinearExpand
Elliptic-type soliton combs in optical ring microresonators
Soliton crystals are periodic patterns of multi-spot optical fields formed from either time or space entanglements of equally separated identical high-intensity pulses. These specific nonlinearExpand
Storage and retrieval of time-entangled soliton trains in a three-level atom system coupled to an optical cavity
Abstract The storage and subsequent retrieval of coherent pulse trains in the quantum memory (i.e. cavity-dark state) of three-level Λ atoms, are considered for an optical medium in which adiabaticExpand
Soliton-comb structures in ring-shaped optical microresonators: generation, reconstruction and stability
Characteristic features of soliton-comb structures in optical microresonators are investigated in normal and anomalous dispersion regimes, when the detuning parameter is varied over a broad range ofExpand
Periodic soliton trains in nonlinear magneto-optical media
Abstract The combination of the vector nature (i.e. polarization) of light in materials with nonlinearity can give rise to outstanding phenomena in the transmission of nonlinear optical fields. WhenExpand
Continuous-wave stability and multipulse structures in a universal complex Ginzburg–Landau model for passively mode-locked lasers with a saturable absorber
The stability of continuous waves and the dynamics of multipulse structures are studied theoretically for a generic model of passively mode-locked fiber lasers with arbitrary nonlinearity. The modelExpand
Periodic soliton trains and informational code structures in an improved soliton model for biomembranes and nerves.
TLDR
Analysis of the dynamics of modulated waves in an improved soliton model for nerve pulses shows that increasing the fourth-order mixed dispersion coefficient improves the stability of the nerve signal. Expand
Exciton-polariton soliton wavetrains in molecular crystals with dispersive long-range intermolecular interactions
Abstract.The peculiar crystal structure of one-dimensional molecular solids originates from packing of an array of molecules in which intermolecular interactions are dominantly dispersive, includingExpand
...
1
2
...

References

SHOWING 1-10 OF 29 REFERENCES
Solitons in optical communications
The history of the proposal that solitons be used for optical fiber communications and of the technical developments toward making soliton transmission practical is reviewed. The causes of bit errorsExpand
Phys
  • Rev. A79, 021802(R)
  • 2009
Phys
  • Rev. E68, 026613
  • 2003
Phys
  • Rev. A77, 033830
  • 2008
Phys
  • Rev. A76, 013808
  • 2007
Phys
  • Rev. A76, 043817
  • 2007
Phys
  • Rev. A73, 010301(R)
  • 2006
Phys
  • Rev. A74, 043818
  • 2006
Phys
  • Rev. E73, 056606
  • 2006
Phys
  • Rev. A73, 062305
  • 2006
...
1
2
3
...