# Stephen W. Teitsworth

## Associate Professor

## Director of Graduate Studies

## Details

** Steering most probable escape paths by varying relative noise intensities.
**

Physical review letters
(2014)

** Dependence of switching path distributions on relative noise intensities in a model of electrical conduction in a tunnel diode circuit
**

(2014)

** Steering Most Probable Escape Paths by Varying Relative Noise Intensities
**

Physical Review Letters
(2014)

** On the Origin of Power-Law Probability Distributions Associated with Noise-Induced Current Switching in Semiconductor Superlattices
**

to be submitted to Physical Review B
(2014)

** Measurement of anomalous scaling behavior associated with noise-induced current switching in a tunnel diode
**

(2014)

** Steering most probable escape paths by varying relative noise intensities
**

(2013)

** Rare transition events in non-equilibrium systems with state-dependent noise: application to stochastic current switching in semiconductor superlattices
**

(2012)

** Noise-Induced Current Switching in Semiconductor Superlattices: Observation of Nonexponential Kinetics in a High-Dimensional System
**

Physical Review Letters
(2012)

** An Averaging Method for Tunnel Diode Circuit Behavior
**

to be submitted to IEEE Journal of Electron Devices
(2012)

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Prof. Stephen W. Teitsworth's research centers on experimental, computational, and theoretical studies of deterministic and stochastic nonlinear electronic transport in nanoscale systems. Three particular areas of current interest are: 1) stochastic nonlinear electronic transport phenomena in semiconductor superlattices and tunnel diode arrays; 2) complex bifurcations associated with the deterministic dynamics of electronic transport in negative differential resistance systems; and 3) strategies for stabilizing negative differential resistance systems against the formation of space-charge waves.

**Education:**

A.M. - Harvard University

BS - Stanford University

** Controllable bifurcation processes in undoped, photoexcited GaAs/AlAs superlattices
**

In Proceedings of the 5th experimental chaos conference edited by M. Ding et al.. ; : .

** Quantum chaos effects in mechanical wave systems
**

In Proceedings of the 16th Sitges conference edited by D. Reguera et al.. ; : .

**1999**Traditional Fulbright Scholarship, Council for International Exchange of Scholars