Fully Automated. Turnkey Operation.
COOLDOWN TIME
Application examples
TEMPERATURE STABILITY
General Specifications
technology
ultra-low vibration, pulse-tube based closed-cycle cryostat
designed for scanning probe microscopy applications
sample environment
helium exchange gas
sample space
49.7 mm diameter probe bore fitting all attocube inserts
sample exchange
top loading system for quick access
vibration & acoustic noise damping system
proprietary low vibration design
usability
fully automated temperature and magnetic field control via
integrated touchscreen, USB interface for remote control
100 nm
Performance Data*
Magnetic Domain Imaging
Piezo-Response
Force Microscopy
temperature range
4 .. 300 K
cool down time of sample
approx. 2 h (depending on insert)
cool down time of system (system without magnet)
approx. 5 .. 10 h (unattended)
cool down time of system (system incl. 9 T magnet)
approx. 10 .. 15 h (unattended)
temperature stability
< ± 10 mK expected (4 .. 50 K)
< ± 25 mK guaranteed (4 .. 50 K)
cooling power at sample location
> 75 mW @ 10 K
Closed-cycle cooler
Kelvin Probe
Force Microscopy
Scanning Hall Probe
Microscopy
nominal cooling power (4.2 K)
> 900 mW
power consumption
max. 9.0 kW, 7.2 kW steady state
cooling of compressor
water cooling (requires local infrastructure)
Dimensions
cryostat (width x depth x height)
1120 x 640 x 1050 mm³ (depending on magnet choice)
optional electronics rack (width x depth x height)
640 x 640 x 1050 mm³
Options
Quantum Dot
Spectroscopy
Micro-Raman
Spectroscopy
superconducting magnet
9 T (other magnets on request)
bipolar magnet power supply
included (with optional magnet)
temperature controller
included
pumping kit
included
*Note: All product specifications are based on a standard system. Optional items or upgrades, other configurations or customization may
change one or several of the indicated values. Specifications and other information subject to change without notice.
attoDRY LAB
Dry Measurement Systems
attoDRY1100
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