Add to ORKGWe present a detailed technical description of a fast multi-channel pyrometer designed for warm-dense-matter (WDM) experiments with intense heavy ion beams at the neutralized-drift-compression-experiment linear accelerator (NDCX-I/II) at Lawrence Berkeley National Laboratory (LBNL). The unique features of the described instrument are its sub-nanosecond temporal resolution (100 ps rise-time) and a broad range, 1,500 K - 12,000 K of measurable brightness temperatures in the visible and near-infrared regions of the spectrum. The working scheme, calibration procedure, experimental data obtained with the pyrometer and future applications are presented
Recent experiments performed on heating of matter using intense uranium beams generated by the heavy...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The US heavy ion fusion science program has developed techniques for heating ion-beam-driven warm de...
This paper describes a fast multi-channel radiation pyrometer that was developed for warmdense-matte...
Intense heavy ion beams are an excellent tool to create large-volume samples of warm-dense-matter (W...
We report on the testing of optical diagnostics developed for warm-dense-matter (WDM) experiments on...
A set of diagnostic has been developed for the WDM experiments at Berkeley. The diagnostics are aime...
This milestone has been met. The effort contains two main components: (1) Experimental results of wa...
Accurate and high-speed transient surface-temperature measurements of combustion devices including i...
This paper describes a multiwavelength optical pyrometer designed to measure, with a 3 ns rise-time...
Design and operation of accurate millisecond and microsecond resolution optical pyrometers developed...
Intense beams of heavy ions are capable of heating volumetric samples of matter to high energy densi...
Intense heavy ion beams are an excellent tool to create large-volume samples of high energy density ...
A high-speed, four-wavelength pyrometer has been developed for dynamic temperature measurements on s...
A fast optical pyrometer is described ; its rise time is about 50 ns ; it gives for a 4 mm2 surface ...
Recent experiments performed on heating of matter using intense uranium beams generated by the heavy...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The US heavy ion fusion science program has developed techniques for heating ion-beam-driven warm de...
This paper describes a fast multi-channel radiation pyrometer that was developed for warmdense-matte...
Intense heavy ion beams are an excellent tool to create large-volume samples of warm-dense-matter (W...
We report on the testing of optical diagnostics developed for warm-dense-matter (WDM) experiments on...
A set of diagnostic has been developed for the WDM experiments at Berkeley. The diagnostics are aime...
This milestone has been met. The effort contains two main components: (1) Experimental results of wa...
Accurate and high-speed transient surface-temperature measurements of combustion devices including i...
This paper describes a multiwavelength optical pyrometer designed to measure, with a 3 ns rise-time...
Design and operation of accurate millisecond and microsecond resolution optical pyrometers developed...
Intense beams of heavy ions are capable of heating volumetric samples of matter to high energy densi...
Intense heavy ion beams are an excellent tool to create large-volume samples of high energy density ...
A high-speed, four-wavelength pyrometer has been developed for dynamic temperature measurements on s...
A fast optical pyrometer is described ; its rise time is about 50 ns ; it gives for a 4 mm2 surface ...
Recent experiments performed on heating of matter using intense uranium beams generated by the heavy...
There is no theoretical upper temperature limit for pyrometer application in temperature measurement...
The US heavy ion fusion science program has developed techniques for heating ion-beam-driven warm de...