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ATTOLIQUID100
continuous flow cryostat with optical access
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| Closeup of the attoLIQUID100 with integrated attocube's nanopositioners |
| Temperature Range |
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standard edition |
3.5 K .. 400 K |
temperature stability |
50 mK (with optional temperature controller) |
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| General Specifications |
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principle |
table-top continuous flow cryostat for liquid Helium or liquid Nitrogen |
temperature isolation |
vacuum |
material of body |
Aluminum |
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| Performance Data |
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initial cooldown time |
25 minutes to 10 K (Helium)
30 minutes to 80 K (Nitrogen) |
nominal cryogen usage |
1.1 l/h (Helium)
0.1 l/h (Nitrogen) |
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| Dimensions |
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cryostat (diameter; height) |
approx. Ø 152 mm; 66.6 mm |
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| Options |
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UHV option |
ultra high vacuum sample environment, true UHV design, fully bakeable up to 150°C |
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| Available Inserts |
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confocal microscopes |
attoCFM I, attoCFM II |
confocal Raman microscopes |
attoRAMAN (on request) |
atomic force microscopes |
attoAFM I |
magnetic force microscopes |
attoMFM I |
scanning hall probe microscopes |
attoSHPM (on request) |
positioning systems |
xy/xyz stacks of 51 and 101 series
rotators of 51, 101, and 200 series
goniometers of 50 and 101 series
scanners of 50 and 100 series |
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| Product
Key Features
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table-top continuous flow cryostat with optical access |
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large choice of implemented and thermally coupled attocube scanning probe microscopes and/or nanopositioners |
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temperature range: 3.5 K .. 400 K |
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low vibration amplitude |
| Benefits
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very easy to handle, fast turn-around times
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high resolution optical or scanning probe measurements due to very low mechanical vibration levels |
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very short cool-down and warm-up times |
| Examplary
Applications
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solid state physics and quantum dot optics |
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optomechanical device tests |
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low temperature scanning probe microscopy measurements |
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