A pan-European distribution network specialising in the supply of state-of-the-art metrology and analytical technologies for scientific and industrial applications. Headquartered in Germany, it supports several dozen different manufacturers, providing them with commercial and technical support. A product specialist, a service technician and an application laboratory are available for each product. So you don't have to travel to the USA to try out a magnetometer or ellipsometer! Known as LOT Quantum Design, the company changed its name to Quantum Design Europe in the summer of 2019 to merge with the multinational network Quantum Design International.
www.lot-qd.com
FusionScope - platform for correlative AFM / SEM measurements
Portable UV-VIS-NIR spectroradiometer
AFSEM microscope for correlative AFM/SEM measurements
OptiCool and OptiCool Vector from Quantum Design are modern cryogenic-free optical cryostats that enable experiments at low temperatures and high magnetic fields.
Particle size measurement from 3 nm to 100um by differential sedimentation in a centrifugal field
Light sources simulating the spectrum of solar radiation
10-1000 W halogen light sources for VIS-NIR spectroscopy
Optimized Xe lamp assembly with monochromator
Czerny-Turner monochromator with 300 mm focal length and variable slit width
Czerny-Turner monochromator with 150 mm focal length and variable slit width
75-1200 W Xe lamps for UV-VIS spectroscopy and solar simulation
30 W deuterium light sources for UV spectroscopy
High-speed, high-resolution direct write laser lithography
Portable UV-VIS-NIR spectroradiometer with a range of 350-1050 nm
Compact and mobile PPMS system with minimal infrastructure requirements
PPMS without the need for liquid helium
System for measuring magnetic, electrical and thermal properties of materials
colour filters, notch filters, fluorescence filters
The QDM.IO quantum diamond microscope offers wide-angle imaging of magnetic fields with exceptional sensitivity. Thanks to the use of a nitrogen-doped diamond chip, it can measure the strength and orientation of local magnetic fields over a large area in real time.