High resolution synchrotron excited photoemission spectroscopy provides a sensitive tool for measuring the chemical state of Si atoms at the Si/SiO sub 2 interface.
A detector to sense the position of a beam of light with a resolution of less than 100Angstroms has been fabricated with a Ti/Si amorphous superlattice on p-type Si.
An experimental technique is described which employs resistive strain gauges to measure the pressure-volume relationship of solids up to ~50 kbar.
Classical high resolution (HR) methods become unrealizable when applied to large SAR images, due to memory size and computational time requirements.
High resolution and bulk sensitive soft x-ray absorption spectra of doped and undoped La sub 2-x Sr sub x CuO sub 4 samples have been measured using the Dragon beamline with a novel soft x-ray fluo
Many novel observations have been obtained in atomic, molecular and condensed matter core-level photoabsorption experiments using the newly constructed `Dragon` high resolution soft x-ray synchrotr
A novel high resolution, high transmission soft x-ray monochromator design for synchrotron radiation is presented. This new design is best described as a return to simplicity.
Many novel observations have been obtained in atomic, molecular and condensed matter care-level experiments using a newly constructed soft x-ray synchrotron radiation beamline.
High resolution sup (13) C NMR spectra are reported for three solid samples of isotactic polypropylene (1-PP): 1) the alpha- crystalline form (monoclinic), 11)the beta-crystalline form (hexagonal)
Uniaxially strained poly(butylene terephthalate) (PBT) undergoes a reversible alpha to beta crystalline phase transition, where the fiber repeat distance is increased in the beta phase.
