John C. Bean and Angad Sachdeva - UVA Virtual Lab
PanoptikumID 0ec25b25-2ce7-5bcc-a901-81215b846efa
Permalink (URI) https://panoptikum.social/0ec25b25-2ce7-5bcc-a901-81215b846efa
Name John C. Bean and Angad Sachdeva - UVA Virtual Lab
Uri 0ec25b25-2ce7-5bcc-a901-81215b846efa
missing image
Claiming not available

You can only claim personas, if you are logged in.

Gigs, John C. Bean and Angad Sachdeva - UVA Virtual Lab has been engaged in
Date Podcast Episode Role
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   Let's see how these work together to create an atomic scale map of the sample surface. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   A third crystal moves it up and down. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   Another crystal moves it side to side. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   Voltages to a piezoelectric crystal move the probe in and out. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   But how can it move the probe over these tiny nanometer distances? author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   A feedback loop holds the electron current constant by keeping the distance from probe to sample constant. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   A voltage induces electrons to jump from the probe's tip to the sample atoms. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   The heart of the STM is an atomically sharp probe. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   To see how a Nanosurf easyScan STM works, let's take it apart in virtual reality. author
2006-12-05   Scanning Tunneling Microscope - How Nanoscientists see Atoms   Scanning tunneling microscopes (STMs) allow nanoscientists to see individual atoms. author