| |
|
|
|
|
kSA 400
|
|
Battelle Pacific Northwest National Laboratory
Environmental Molecular Sciences Laboratory
Tim Droubay
|
|
We use the kSA 400 during in-situ oxide molecular beam epitaxy (MBE). Research using EMSL's MBE deposition system centers around the synthesis and characterization of novel oxide, ceramic, and mineral materials as crystalline films.
|
|
|
Dalhousie University
Department of Physics and Atmospheric Science
Theodore Monchesky
|
|
I use the kSA 400 for SiGe MBE growth.
|
|
|
National Research Council Canada
Zbig Wasilewski
|
|
At the National Research Council Canada, we use the kSA 400 on two MBE systems for work with arsenides, dilute nitrides, and antimonides.
|
|
|
National University of Singapore
Thwin Htoo
|
|
At the National University of Singapore, we use the kSA 400 for in-situ GaAS MBE.
|
|
|
North Carolina State University
Materials Research Center
Dr. Daniel Lichtenwalner & Prof. Angus Kingon
|
|
We are using the kSA 400 for RHEED analysis of Si substrate surface cleanliness and for monitoring growth of a variety of oxide films on Si in a MBE system.
|
|
|
Oakridge National Laboratory
NanoTransport Laboratory
Sergei V. Kalinin
|
|
Our primary uses for the kSA 400 are PLD growth of strongly correlated oxides and LEED I-V data acquisition.
|
|
|
Ohio University
Department of Physics and Astronomy
Arthur Smith
|
|
My kSA 400 is used in conjunction with an all-nitride rf N-plasma MBE system. Samples whose growth is monitored by RHEED may also be transferred through vacuum to an adjoining UHV STM system for atomic-scale analysis.
|
|
|
Oxide Lab
The University of Wisconsin
Land Belenky
|
|
We use the kSA 400 in the deposition and analysis of ultra-thin films and superlattices of magnetic, ferroelectric and superconducting oxide materials. Our high-pressure pulsed laser deposition system was custom designed and built by TSST of the Netherlands to incorporate advanced RHEED capability.
|
|
|
Simon Fraser University
Bret Heinrich
|
|
We are using the kSA 400 for the study of magnetic nanostructures grown on GaAs templates. RHEED is an invaluable tool to determine the interface properties of multilayer films.
|
|
|
Superconductor Technologies, Inc.
Luke Shing-Jen Peng, PhD
|
|
We use the kSA 400 for in-situ lattice spacing monitoring to determine the composition of SrTiO3 (STO) films grown by reactive coevaporation.
|
|
|
University of Canterbury
Steve Durbin
|
|
We presently use the kSA 400 system on a two-chamber Perkin Elmer 430 MBE system in which we work on nitride and oxide semiconductor material systems. The kSA 400 will be moving to a new UHV pulsed laser deposition system.
|
|
|
Xpert Semiconductor, Inc.
Pin Ho
|
|
Our kSA 400 is used for in-situ GaAS and InP-based MBE.
|
Top
|
|
kSA MOS
|
|
Please see our MOS references.
If you use kSA MOS, please consider adding your name and organization to this page.
To do so, please contact us.
|
Top
|
|
kSA MOS Ultra-Scan
|
|
The MOS Ultra-Scan is an ex-situ tool built on proven MOS technology. Please see our MOS references.
If you use kSA MOS Ultra-Scan, please consider adding your name and organization to this page.
To do so, please contact us.
|
Top
|
|
kSA RateRat Pro
|
|
Please see our RateRat Pro references.
If you use kSA RateRat Pro, please consider adding your name and organization to this page.
To do so, please contact us.
|
Top
|
|
kSA BandiT
|
|
University at Albany, SUNY
Vincent LaBella
|
|
We use the kSA BandiT for in-situ GaAs(001) and (111) surface preparation within an MBE system for STM measurements.
|
Top
|
|
kSA EyeSpy
|
|
Argonne National Laboratory
Eric Dufresne
|
|
At Argonne National Labs we use a Qmax 650 camera from k-Space as an X-ray camera for fast time-resolved experiments.
|
|
|
Institute of Electronic Structure & Laser
University of Crete
Theo Kitsopoulos
|
|
We use kSA Eyespy for Chemical Dynamics Imaging i.e. imaging the velocity distribution of particles formed from photoionization, photofragmentation and reactive scattering.
|
Top
|
