Please contact us. Or revert to our various standard applications listed below. All shown detectors are available as normal DLD-version as well as hybrid layout.
Standardhousings for delay line detectors
DLD - housing type 1 (rectangular)
Standardhousing for delayline detectors with 36x36 mm² active detector area.
DLD - housing type 2 (round)
Standardhousing for for delayline detector 3636. Active detector area: 36x36 mm²
Ninefold segmented high voltage DLD with combined MicroMott detector, designed for use in Phoibos 225 high energy electron spectrometers. Active detector area: 40x30 mm², high voltage resistance up to -15kV, targetvoltage for Mottdetector +25kV (relative to HV of DLD). Please find further product informations here and here.
Interchangeable DLD’s for photoemission electron microscopes
Interchangeable DLD - 4040 - IG
DLD mounted on a linear drive mechanics for in-situ exchange between DLD and the imaging unit of the PEEM. Active detector area: 40 x 40 mm²; Mounting flange: CF63. Please find further product informations here.
DLD mounted on a linear drive mechanics for in-situ exchange between DLD and the imaging unit of the PEEM. Active detector area: 18 x 18 mm²; Mounting flange: CF40. Please find further product informations here.
Delayline detectors provide an ideal solution for the 2D and timeresolved dynamic data acquisition of electrons, ions and photons (X-ray, UV). Single particle detection and high count rate imaging may be adressed by the used counting technique for both in high quality. Multi coincidence measurements as well as software assisted time gating enable enormeous improvement of signal-to-background ratios. Areas of application range from electron spectrometers (band structure measurements, XPS, UPS, ESCA, AES, stroboscopic timeexperiments) to emission electron microscopes (ToF-PEEM applications). Optical detector layouts are used in lifetime-fluorescence spectroscopy. Typical implementations of ion applications are ToF-mass spectrometry and 3D atom probe microscopy. Please find further information on the functionality of delayline detectors here.
We offer individual adaption of detectors to manifold costumer requirements, for instance the adaption to electron energy analyzers from Specs and Scienta or the alignment of the detector area to customer specific sizes.
We continuously advance our systems for an improvement of the lateral and time resolution and of the countrates. If you are interested in the current development status, please contact us. You can find our roadmap to the 1GHz delayline detector here
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