Add to ORKGThe electron collecting efficiency of a cylindrical mirror energy analyzer incorporating retardation of the electrons prior to analysis has been determined over the range 0 to 30 eV by two methods. The first method requires the use of a vacuum ultraviolet monochromator to produce monoenergetic electrons of different energies; the second method involves measuring the energy-brightness relationship of the retarding optics and should be applicable to any deflection analyzer with pre-retarding optics. The results of the two methods are compared and the limitations of the latter method are discussed
Three curved plate energy analyzers coupled with three electron multiplier tubes detect and measure ...
29 pagesThree different evaluations of the energy dependence of the transmission-detection function ...
In this paper we will review the performance of a “miniature” single pass cylindrical mirror analyze...
The problem of obtaining true and meaningful branching ratios from the photoelectron spectra is inve...
The construction and performance of a double pass cylindrical mirror analyzer (CMA) is described. Th...
[[abstract]]An electron‐optical system and hemispherical electrostatic energy dispersing element for...
A single pass cylindrical mirror analyzer for use in charged particle analysis has reduced size for ...
Sem informaçãoWe have run electron optics simulations and determined the tolerance in the control vo...
The design and performance of a new miniature cylindrical mirror analyzer (CMA) are presented. The C...
Disclosed is a compact, small diameter, high resolution charged particle-energy detecting, retractab...
An imaging photoelectron photoion coincidence spectrometer at the vacuum ultraviolet (VUV) beamline ...
Electron energy loss spectroscopy has become an indispensable tool in surface analysis Although the ...
An energy analyzer for electron beams, based on a retarding-potential method, has been studied both ...
Highest Honors in PhysicsA retarding mesh analyzer was used to measure the electron energy spectrum ...
Photographic and electron photographic emulsion efficiencies calculated as function of densit
Three curved plate energy analyzers coupled with three electron multiplier tubes detect and measure ...
29 pagesThree different evaluations of the energy dependence of the transmission-detection function ...
In this paper we will review the performance of a “miniature” single pass cylindrical mirror analyze...
The problem of obtaining true and meaningful branching ratios from the photoelectron spectra is inve...
The construction and performance of a double pass cylindrical mirror analyzer (CMA) is described. Th...
[[abstract]]An electron‐optical system and hemispherical electrostatic energy dispersing element for...
A single pass cylindrical mirror analyzer for use in charged particle analysis has reduced size for ...
Sem informaçãoWe have run electron optics simulations and determined the tolerance in the control vo...
The design and performance of a new miniature cylindrical mirror analyzer (CMA) are presented. The C...
Disclosed is a compact, small diameter, high resolution charged particle-energy detecting, retractab...
An imaging photoelectron photoion coincidence spectrometer at the vacuum ultraviolet (VUV) beamline ...
Electron energy loss spectroscopy has become an indispensable tool in surface analysis Although the ...
An energy analyzer for electron beams, based on a retarding-potential method, has been studied both ...
Highest Honors in PhysicsA retarding mesh analyzer was used to measure the electron energy spectrum ...
Photographic and electron photographic emulsion efficiencies calculated as function of densit
Three curved plate energy analyzers coupled with three electron multiplier tubes detect and measure ...
29 pagesThree different evaluations of the energy dependence of the transmission-detection function ...
In this paper we will review the performance of a “miniature” single pass cylindrical mirror analyze...