Citation: F. Martin et X. Oriols, Effects of line parameters on soliton-like propagation in nonlinear transmission lines: Application to the optimization of frequency triplers, INT J INFRA, 22(2), 2001, pp. 225-235
Citation: F. Martin et X. Oriols, Understanding soliton wave propagation in nonlinear transmission lines formillimeter wave multiplication, INT J INFRA, 22(1), 2001, pp. 85-92
Citation: X. Oriols et F. Martin, Analytical solitons in nonlinear transmission lines loaded with heterostructure barrier varactors, J APPL PHYS, 90(5), 2001, pp. 2595-2600
Citation: F. Martin et X. Oriols, Simple model to study soliton wave propagation in periodic-loaded nonlinear transmission lines, APPL PHYS L, 78(18), 2001, pp. 2802-2804
Authors:
Martin, F
Garcia-Garcia, J
Oriols, X
Sune, J
Citation: F. Martin et al., Quantum simulation of resonant tunneling diodes: a reliable approach basedon the Wigner function method, JPN J A P 1, 38(4B), 1999, pp. 2669-2674
Authors:
Oriols, X
Garcia-Garcia, JJ
Martin, F
Sune, J
Mateos, J
Gonzalez, T
Pardo, D
Vanbesien, O
Citation: X. Oriols et al., Towards the Monte Carlo simulation of resonant tunnelling diodes using time-dependent wavepackets and Bohm trajectories, SEMIC SCI T, 14(6), 1999, pp. 532-542
Authors:
Martin, F
Garcia-Garcia, J
Oriols, X
Sune, J
Citation: F. Martin et al., Coupling between the Liouville equation and a classical Monte Carlo solverfor the simulation of electron transport in resonant tunneling diodes, SOL ST ELEC, 43(2), 1999, pp. 315-323
Authors:
Garcia-Garcia, J
Martin, F
Oriols, X
Sune, J
Citation: J. Garcia-garcia et al., Quantum Monte Carlo simulation of resonant tunneling diodes based on the Wigner distribution function formalism, APPL PHYS L, 73(24), 1998, pp. 3539-3541