Tuesday, December 29, 2009

XRF Analyzer with Large Area Drift Detector

Thermo Fisher Scientific (USA) introduce Thermo Scientific Niton XL3t Series with geometrically optimized large area drift detector (GOLDD) technology. The Niton analyzer's ground breaking GOLDD technology delivers improvements in light element detection, overall sensitivity and measurement times - as much as 10 times faster than conventional Si-PIN detectors, and up to three times more precise than conventional smaller, silicon drift detectors.

Thermo Fisher Scientific was able to surpass the performance of conventional Si-PIN and SDD detectors by combining the award-winning Niton XL3t 50 kV, 2-watt X-ray tube, closely optimized geometry and patented signal processing hardware and software. When combined with the company's proprietary large area drift detector, it creates GOLDD technology, delivering superior performance in the form of faster analysis and lower detection limits. Furthermore, this innovation allows light element detection of magnesium, aluminum, silicon, phosphorus and sulphur without helium or vacuum purging, a significant productivity and user benefit.

" The Niton XL3t with GOLDD technology brings true lab-quality performance to a hand held XRF analyzer," said Bob Wopperer, director of business development for portable analyzer products within Thermo Fisher Scientific. " The product is easy to use, delivers fast analysis, is extremely accurate, and can measure light elements without helium or vacuum assistance. These features make it the ideal, multi-purpose tool for analyzing metal alloys, carrying out mining exploration and mapping, detection soil contaminants, or screening toys, electronics and other consumer goods for prohibited substances."

For example, the Niton XL3t GOLDD is the definitive tool for scrap metal recycling, making it easier to sort aluminum, titanium and bronze alloys, as well as achieving superior performance for tramp and trace element analysis. And in mining exploration, the instruments low detection limits are designed to allow geologist to identify anomalies at or below the averages naturally found in the earth's crust, something previously not possible with hand held XRF

0 comments:

XRF Analyzer with Large Area Drift Detector

Thermo Fisher Scientific (USA) introduce Thermo Scientific Niton XL3t Series with geometrically optimized large area drift detector (GOLDD) technology. The Niton analyzer's ground breaking GOLDD technology delivers improvements in light element detection, overall sensitivity and measurement times - as much as 10 times faster than conventional Si-PIN detectors, and up to three times more precise than conventional smaller, silicon drift detectors.

Thermo Fisher Scientific was able to surpass the performance of conventional Si-PIN and SDD detectors by combining the award-winning Niton XL3t 50 kV, 2-watt X-ray tube, closely optimized geometry and patented signal processing hardware and software. When combined with the company's proprietary large area drift detector, it creates GOLDD technology, delivering superior performance in the form of faster analysis and lower detection limits. Furthermore, this innovation allows light element detection of magnesium, aluminum, silicon, phosphorus and sulphur without helium or vacuum purging, a significant productivity and user benefit.

" The Niton XL3t with GOLDD technology brings true lab-quality performance to a hand held XRF analyzer," said Bob Wopperer, director of business development for portable analyzer products within Thermo Fisher Scientific. " The product is easy to use, delivers fast analysis, is extremely accurate, and can measure light elements without helium or vacuum assistance. These features make it the ideal, multi-purpose tool for analyzing metal alloys, carrying out mining exploration and mapping, detection soil contaminants, or screening toys, electronics and other consumer goods for prohibited substances."

For example, the Niton XL3t GOLDD is the definitive tool for scrap metal recycling, making it easier to sort aluminum, titanium and bronze alloys, as well as achieving superior performance for tramp and trace element analysis. And in mining exploration, the instruments low detection limits are designed to allow geologist to identify anomalies at or below the averages naturally found in the earth's crust, something previously not possible with hand held XRF

0 comments:

Post a Comment