Add to ORKGPinch Plasmas are sources of high brilliance for soft x-rays in the wavelength range from Lambda equal 0.1 nm to 20 nm. A plasma focus device emitting line radiation of hydrogen-like nitrogen (N VII) at Lambda equal 2.5 nm into the water window region has been developed as a source for a laboratory imaging x-ray microscope. Several diagnostic methods are applied to measure and maximize the brilliance of the line emission of the source. With an x-ray optic developed at Göttingen pictures with 0.1-0.2 Mym lateral resolution have been taken
Plasma focus devices are capable of producing dense high Z plasmas with a lifetime of about 10 ns by...
The X-ray emission from a plasma focus has been studied using time integrated and streak photography...
The ultimate objective of this project was to develop a small, transportable X-ray microscope which ...
Pinch plasmas are sources of high brilliance for soft x-rays in the wavelength range from Lambda is ...
A plasma focus operating in nitrogen is developed as an x-ray source for the laboratory type x-ray m...
Plasmafocus devices producing small volume of plasma with electron density n sub e about 10 high 20 ...
The strong demand for bright, compact, and inexpensive sources for x-ray microscopy has stimulated t...
The radiation characteristics of a plasma focus operated with nitrogen is investigated. To optimize ...
Pinch plasma x-ray sources have been developed for x-ray lithography and x-ray microscopy. The litho...
A plasma focus x-ray source is optimized experimentally to produce N VII Lyman-alpha line radiation ...
Compact pinch plasma devices are intense sources of pulsed EUV radiation with output energies of sev...
We present a laser plasma based x-ray microscope for the water window employing a high-average power...
Small pinch plasma devices are intense sources of pulsed XUV-radiation. Because of their low costs a...
Water window (WW) soft X-rays (wavelength 2.3 to 4.4 nm) are easily absorbed by carbon and ...
A laboratory x-ray microscope has been built with zone a pulsed plasma x-ray source. X-ray images of...
Plasma focus devices are capable of producing dense high Z plasmas with a lifetime of about 10 ns by...
The X-ray emission from a plasma focus has been studied using time integrated and streak photography...
The ultimate objective of this project was to develop a small, transportable X-ray microscope which ...
Pinch plasmas are sources of high brilliance for soft x-rays in the wavelength range from Lambda is ...
A plasma focus operating in nitrogen is developed as an x-ray source for the laboratory type x-ray m...
Plasmafocus devices producing small volume of plasma with electron density n sub e about 10 high 20 ...
The strong demand for bright, compact, and inexpensive sources for x-ray microscopy has stimulated t...
The radiation characteristics of a plasma focus operated with nitrogen is investigated. To optimize ...
Pinch plasma x-ray sources have been developed for x-ray lithography and x-ray microscopy. The litho...
A plasma focus x-ray source is optimized experimentally to produce N VII Lyman-alpha line radiation ...
Compact pinch plasma devices are intense sources of pulsed EUV radiation with output energies of sev...
We present a laser plasma based x-ray microscope for the water window employing a high-average power...
Small pinch plasma devices are intense sources of pulsed XUV-radiation. Because of their low costs a...
Water window (WW) soft X-rays (wavelength 2.3 to 4.4 nm) are easily absorbed by carbon and ...
A laboratory x-ray microscope has been built with zone a pulsed plasma x-ray source. X-ray images of...
Plasma focus devices are capable of producing dense high Z plasmas with a lifetime of about 10 ns by...
The X-ray emission from a plasma focus has been studied using time integrated and streak photography...
The ultimate objective of this project was to develop a small, transportable X-ray microscope which ...