PHT.301 Physics of Semiconductor Devices

Home

Outline

Introduction

Electrons in crystals

Intrinsic Semiconductors

Extrinsic Semiconductors

Transport

pn junctions

Contacts

JFETs/MESFETs

MOSFETs

Bipolar transistors

Opto-electronics

Lectures

Books

Exam questions

Html basics

TUG students

Student projects

      

Drift and diffusion

In the model of diffusive transport, electrons repeatedly scatter with a scattering time $\tau$. At a scattering event, the electrons return to their equilibrium velocity and move in a random direction. Between scattering events the electrons move under the influence of the applied electric and magnetic fields. In the simulation below, the blue dots represent electrons. The red dot is the average initial position of the electrons and the green dot is the average position.

$y$ [μm]

$x$ [μm]

time:  s, $θ_H=$  [rad]

$m=$  [kg], $q=$  [C], $dt=$  [s]

$B_{z}=$ 2 [T]

$E_x=$ 1E5 [V/m]

$E_y=$ 0 [V/m]

$τ_{sc}=$ 2 [s]