Spectrometers for Shorter Wavelengths (nm) and Higher Energy (eV)
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Vacuum XUV Spectrometer, 10 to 1000 eVResearch worldwide for attosecond laser pulses, compact extreme ultraviolet lasers and high harmonic lasers generation benefit from McPherson spectrometers ability to quickly and accurately provide XUV wavelength information. Vacuum prepared, clean materials are used for the Model 248/310. This McPherson grazing incidence spectrometer works through the vacuum ultraviolet including the extreme UV (XUV) and soft x-ray wavelength regions. |
The spectrometers short wavelength limit is around 1200eV (or, if you prefer wavelength, about 1nm.) The McPherson Model 248/310 optical spectrometer uses glancing angles between 85 and 88 degrees to maintain good throughput efficiency in the XUV. The instrument operates in the Rowland circle optical geometry. Wavelength reproducibility is 0.01nm and certified for each instrument shipped.
The McPherson spectrometer used as a broadband spectrograph and with gated microchannel plate intensifier operates in a fixed optical scheme for very stable and reproducible operation. The instrument may be used in any mounting orientation - simplifying arrangement of vacuum components required for advanced experimental systems. Optional hollow cathode and x-ray light sources enable scientific users to calibrate wavelength or intensity are available as accessories.
For narrow spectral regions and/or dedicated applications we have flat field spectrographs too! They work from ~60 to 1200eV (251MX) or ~8 to 120eV (model 251.)
It comes with vacuum tight seals for the 10-6 torr vacuum region. The McPherson spectrometer can optionally be prepared for use in the ultra high vacuum (UHV) regime, 10-9 torr. It then features all metal seals throughout. UHV models can be certified by residual gas analysis prior to shipment.