- Phys. Rev. B 56 1524215251 (1997) Theory of potential modulation in lateral surface superlattices.
- I regret that the following errors have come to my notice. The corrections are listed with the names of those who reported them, to whom I am very grateful. Please send a note to
- Introduction to OrCAD Capture and PSpice Notes for demonstrators
- Relaxation of a strained quantum well at a cleaved surface John H. Davies,1, D. M. Bruls,2 J. W. A. M. Vugs,2 and P. M. Koenraad2
- Phys. Rev. B 52 1125911265 (1995) Effect of incoherence on current and shot noise in resonant tunneling: An
- Phys. Rev. B 58 1078910799 (1998) Theory of potential modulation in lateral surface superlattices.
- Version 1.0; 3 March 1998 Elastic and piezoelectric fields around a buried quantum dot: A simple
- I regret that the following errors have come to my notice. The corrections are listed with the names of those who noticed them, to whom I am very grateful. Please send
- Electronic Design Project 2 Cadence OrCAD PCB Designer 16.3
- Potential fluctuations in metaloxidesemiconductor field-effect transistors generated by random impurities in the depletion layer
- MSP430 microcontroller basics: Information for code files
- The origin and reduction of switching noise in GaAs/AlGaAs lateral gated devices
- Mass-produced mesoscopic MOSFETs
- Version 5; 7 October 1999 Quantum dots induced by strain from buried and surface stressors
- Introduction to OrCAD Capture and PSpice Professor John H. Davies
- MSP430 microcontroller basics: Solutions to odd-numbered examples
- The origin of switching noise in GaAs/AlGaAs lateral gated devices M. Pioro-Ladrire,1,2 John H. Davies,3, A. R. Long,4 A. S. Sachrajda,1,
- Electronic Design Project 2 Cadence OrCAD PCB Designer
- 7 January 2003 Elastic field in a semi-infinite solid due to thermal expansion or a coherently
- Elastic fields in optoelectronic devices John H. Davies
- MSP430 microcontroller basics: Home-made demonstration boards
- A basic introduction to Cadence OrCAD PCB Designer
- Modeling the patterned two-dimensional electron gas: Electrostatics John H. Davies and Ivan A. Larkin
