This novel, less invasive way of detecting disease using light salient properties was employed for the first time in 1991 to identify a fingerprint for cancer in tissue by a team led by Robert Alfano, a Distinguished Professor of Science and Engineering at The City College of New York, and director of The Institute for
Ultrafast Spectroscopy and Lasers (IUSL) of the City University of New York at City College.
He conducted postdoctoral research in
ultrafast spectroscopy at the Max Planck Institute for Quantum Optics in Garching, Germany on the Humboldt fellowship, and then worked as a National Research Council fellow at the National Institute of Standards and Technology in Gaithersburg, Maryland.
Not exact matches
The group of Majed Chergui at EPFL, along with national and international colleagues, have shed light on this long - standing question by using a combination of cutting - edge experimental methods: steady - state angle - resolved photoemission
spectroscopy (ARPES), which maps the energetics of the electrons along the different axis in the solid; spectroscopic ellipsometry, which determines the optical properties of the solid with high accuracy; and
ultrafast two - dimensional deep - ultraviolet
spectroscopy, used for the first time in the study of materials, along with state - of - the - art first - principles theoretical tools.
This is a view into the measuring chamber combining two pump - probe
spectroscopy techniques thus allowing to observe and control
ultrafast processes with attosecond resolution.
Ultrafast x-ray
spectroscopy reveals electronic changes that occur during the oxidation of carbon monoxide on a ruthenium surface.
One - micrometer wavelength
ultrafast laser emission is transformed to a powerful tool for ultrabroadband mid-infrared
spectroscopy.
The electrical and optical properties of the Sb doped SnO2 NWs have been measured by (a) THz conductivity and (b)
ultrafast pump probe
spectroscopies.
Capitanio M., Canepari M., Maffei M., Beneventi D., Monico C., Vanzi F., Bottinelli R., and F. S. Pavone,
Ultrafast force - clamp
spectroscopy of single molecules reveals load dependence of myosin working stroke, Nature Methods 9, 1013 - 1019 (2012).
P.A. Ni, Y. Ping, A.J. Nelson, D. Prendergast, R.W. Lee, R.W. Falcone, P.A. Heimann, «Electronic Structure of Warm Dense Copper Studied by
Ultrafast X-ray Absorption
Spectroscopy», Phys.