At the heart of every measurement instrument, nanopositioning stages based on our patented slip-stick principle provide several degrees of freedom over several millimeters, with a sub-nm precision.
Confocal Microscope Platforms
for low temperature
Originating from our co-founder Prof. Karrai's university laboratory at LMU in Munich, attocube has been pioneering research with cryogenic confocal microscope platforms from the start of the 21st century. The ability to perform photoluminescence measurements on single photon sources such as quantum dots at cryogenic and variable temperatures with free-beam optics, over extended measurement periods due to the scarce optical signals with high stability and low drift was greatly facilitated by the patented designs of our cryogenic nanopositioners as well as our optical measurement insert.
Today, our portfolio of confocal microscope platforms includes several instruments for free-beam and fiber-based quantum optics spectroscopy in reflection as well as transmission mode.
In combination with our attoDRY series closed-cycle cryostats, even the most complex confocal measurement techniques are feasible, with or without high magnetic fields generated by superconducting magnets. Our unique cryogenic LT-APO apochromatic objectives with several different working distances and high numerical aperture cover a large wavelength range from UV to near-infrared, and allow for high collection efficiency and extremely low drift.
The confocal microscope platforms can also be used for variable temperature micro-Raman spectroscopy to investigate new phenomena in materials such as graphene & 2D materials, nanotubes and nanowires, superconductors and multiferroics just to name a few.
Patented Positioning Technology
Flexible Upgrade Options
Choose from a variety of upgrade options ranging from additional wiring (twisted pairs as well as flexible and semi-rigid coaxial wires), to closed loop upgrades for coarse positioners and scanners, as well as inspection optics for the microscopes, sample holders and a variety of additional accessories to adapt the instrument to your application.
Variable Temperatures & High Magnetic Fields
All of our instruments have been very carefully designed to meet the requirements of cryogenic environments and high magnetic fields by the choice of suitable materials and appropriate mechanical working principles.
Large Scan Range
The state-of-the-art microscopes feature larger scan ranges than any other comparable system on the market, and can be further upgraded with the ultra-large scan range option to up to 125 μm x 125 μm at low temperatures.
Free-beam based confocal microscope platform for photoluminescence & spectroscopy at cryogenic temperatures and in high magnetic fields.
Fiber-based confocal microscope platform for photoluminescence & spectroscopy at cryogenic temperatures and in high magnetic fields.
Fiber-based confocal microscope platform for photoluminescence & spectroscopy at cryogenic temperatures and in high magnetic fields in transmission & reflection.
Free-beam / fiber-based confocal microscope platform for photoluminescence & spectroscopy at cryogenic temperatures and in high magnetic fields in transmission & reflection.