The study of new semiconducting materials, high temperature superconductors, photovoltaic devices, and organic electronic materials typically requires low-level sourcing and measurement because the materials are often nanostructures. The trouble is, the types of low-level measurements required to fully characterise such small structures are often contaminated with significant levels of power line, thermal, and other types of ambient noise signals.
A new technical note from our partners Lake Shore Cryotronics, “A New Approach to Improving Confidence in
Low-Level Measurements of Nanostructures” examines existing methods and how well they address the challenge of noise in the measurement. And it also provides an in-depth look at a solution: a synchronised and modular AC + DC sourcing and measurement system that utilises optimum sensitivity, noise rejection, and uninterrupted acquisition of data as a means to more confidently characterise such structures.
About Lake Shore Cryotronics
Lake Shore Cryotronics is a leading innovator in solutions for measurement over a wide range of temperature and magnetic field conditions. We are committed to our customers’ pursuit of the science that benefits mankind.
Do you have a question about your application?
Get in touch with our Sales/Service Engineer, Josh Hook
