Affiliation:
1. Department of Electrical and Electronic Engineering, Kanagawa Institute of Technology, 1030 Shimoogino, Atsugi, Kanagawa 243-0292, Japan
Abstract
A one-dimensional lattice in tunnel-diode (TD) oscillators supports self-sustained solitary pulses resulting from the balance between gain and attenuation. By applying the reduction theory to the device’s model equation, it is found that two relatively distant pulses moving in the lattice are mutually affected by a repulsive interaction. This property can be efficiently utilized in equalizing pulse positions to achieve jitter elimination. In particular, when two pulses rotate in a small, closed lattice, they separate evenly at the asymptotic limit. As a result, the lattice loop can provide an efficient platform to obtain low-phase-noise multiphase oscillatory signals. In this work, the interaction between two self-sustained pulses in a TD-oscillator lattice is examined, and the properties of interpulse interaction are validated by conducting several measurements using a test breadboarded lattice.
Funder
Japan Society for the Promotion of Science
Subject
General Engineering,General Mathematics
Reference22 articles.
1. Self-sustained solitary waves in a tunnel diode oscillator lattice and their applications in frequency division;K. Narahara;International Journal of Circuit Theory and Applications,2021
2. Equation of motion for interacting pulses;S.-I. Ei;Physical Review E-Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics,1994
3. Wave interactions on a viscous film coating a vertical fibre: formation of bound states;C. Duprat;Chemical Engineering and Processing,2011
4. Rigorous coherent-structure theory for falling liquid films: viscous dispersion effects on bound-state formation and self-organization;M. Pradas;Physics of Fluids,2012
5. Weak interaction of solitary pulses in active dispersive-dissipative nonlinear media;D. Tseluiko;IMA Journal of Applied Mathematics,2014
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