McPherson spectrometer allows rapid analysis from 1 to 300 nm

Nov. 23, 2009
McPherson's 248/130 grazing incidence wavelength dispersive optical spectrometer allows rapid analysis of spectral light in the 1 to 300nm wavelength region. This instrument is a useful tool for spectroscopy in the vacuum ultraviolet and also the extreme and soft-x-ray wavelength region.

McPherson's 248/130 grazing incidence wavelength dispersive optical spectrometer allows rapid analysis of spectral light in the 1 to 300nm wavelength region. This instrument is a useful tool for spectroscopy in the vacuum ultraviolet and also the extreme and soft-x-ray wavelength region. Using direct detection CCDs, gated image intensifiers, or fast channel electron multipliers for detection, it provides wide working range and flexibility in spectral acquisition. The instruments are completely assembled, vacuum leak checked, and calibrated with respect to wavelength. They can include adapters, differential pumping, and grazing incidence collection optics to more easily connect to the experiment. Every shipment is complete with a wavelength calibration certification. For the user, this facilitates rapid identification of closely spaced high harmonics and can be used by pace scientists and plasma physicists who need a ready instrument for vacuum ultraviolet, EUV, and XUV. Configured in reverse, it operates as a tunable light source.
McPherson
Chelmsford MA
www.mcphersoninc.com


_________________
PRESS RELEASE

Not just a XUV HHG Spectrometer

McPherson's 248/130 grazing incidence wavelength dispersive optical spectrometer allows rapid analysis of spectral light in the ~1 to 300nm wavelength region (4 to ~1200eV.) This instrument is a useful tool for spectroscopy in the vacuum ultraviolet and also the extreme and soft-x-ray wavelength region. Using direct detection CCDs, gated image intensifiers, or fast channel electron multipliers for detection, it provides wide working range and flexibility in spectral acquisition. The instruments are completely assembled, vacuum leak checked, and calibrated with respect to wavelength. They can include adapters, differential pumping, and grazing incidence collection optics to more easily connect to the experiment. Every shipment is complete with a wavelength calibration certification. For the user, this facilitates rapid identification of closely spaced high harmonics. The McPherson 248/310 spectrometer is not just for laser applications. Space scientists and plasma physicists who need a ready instrument for vacuum ultraviolet, EUV, and XUV also capitalize on the McPherson 248/310 spectrometers range and flexibility. Configured in reverse, it operates as a tunable light source. Vacuum ultraviolet spectroscopy accessories including various detectors systems and wavelength calibration sources are available from <1nm to the Visible.

McPherson, Inc. (Chelmsford, MA USA) manufactures a variety of instruments that measure and tune specific wavelengths of light for many disciplines of spectroscopy. The company is proud of its ongoing role in building and delivering research instrumentation to domestic and international leading laboratories for research in plasma physics, magnetic and inertial confinement fusion. For more information about our instruments and custom manufacturing capabilities to suit your specific needs visit www.mcphersoninc.com or call 1-978-256-4512 today.

Sponsored Recommendations

Request a quote: Micro 3D Printed Part or microArch micro-precision 3D printers

April 11, 2024
See the results for yourself! We'll print a benchmark part so that you can assess our quality. Just send us your file and we'll get to work.

Request a free Micro 3D Printed sample part

April 11, 2024
The best way to understand the part quality we can achieve is by seeing it first-hand. Request a free 3D printed high-precision sample part.

How to Tune Servo Systems: The Basics

April 10, 2024
Learn how to tune a servo system using frequency-based tools to meet system specifications by watching our webinar!

Precision Motion Control for Sample Manipulation in Ultra-High Resolution Tomography

April 10, 2024
Learn the critical items that designers and engineers must consider when attempting to achieve reliable ultra-high resolution tomography results here!

Voice your opinion!

To join the conversation, and become an exclusive member of Laser Focus World, create an account today!