H.D. Dulman, R.H. Pantell, et al.
Physical Review B
The novel technique of low-temperature scanning tunneling microscopy is used to study conventional and high-Tc superconductors (spatial identification and distribution of the superconducting gap, vortex movement, etc.), but also custom-designed materials which are unstable at room temperature, e.g. xenon layers and size-selected clusters, or species whose rotational or vibrational movements have to be frozen in to achieve atomic resolution. We present the specific design and advantages of our low-temperature ultra-high vacuum scanning tunneling microscope along with recent results on the internal structure of C60 fullerene molecules and their photon emitting properties. © 1994.
H.D. Dulman, R.H. Pantell, et al.
Physical Review B
J.A. Barker, D. Henderson, et al.
Molecular Physics
Xikun Hu, Wenlin Liu, et al.
IEEE J-STARS
J. Paraszczak, J.M. Shaw, et al.
Micro and Nano Engineering