The HILA® name stands for High Inertia, Low Acceleration – a platform designed specifically to provide an ultra-stable mechanical environment for the most sensitive cryogenic measurements. The low resonance platform provides the lowest level of noise found in any closed-cycle system, with the same level of superior optical & sample access found in all Montana Instruments systems.
Overview
PERFORMANCE BENEFITS
- Multi-stage passive vibration damping technique isolates the cryogenic environment from both the vibrations of the cryostat itself and other sources of motion within a common lab environment
- Extremely low natural frequency of the cold sample platform (<0.6Hz) isolates energy for an ultra-stable mechanical environment
- Convenient & intuitive platform balancing and floating method is easily tunable to accomodate a large range of mass and mass distributions
- Closed-cycle operation means no helium is consumed, so users avoid the high costs, uncertain supply, and challenging operation associated with liquid cryogens
USABILITY BENEFITS
- Straightforward user interface and fully-automated control system increases experimental efficiency
- Incredible sample, electrical, and optical access provides total experiment flexibility
- Fully-integrated, turn-key design gets you up and running quickly with minimal effort
- Tabletop design integrates into existing setups and can be moved easily
MODELS
4.5K base, 20mK ptp stability, ø170mm, 0.024 m/s2 RMS accelerations (atomic resolution capable with SPM): Low frequency floating sample platform (<0.6Hz) isolates energy for an ultra-stable mechanical environment.
Add-On Options
Cryo-Optic (CO): Custom integration of a room temperature Cryo-Optic high NA objective (horizontally mounted) into the sample space.
| Series Architecture Letter | Sample Chamber Class # | Add-On Modules (abbr.) |
| System design & mounting schemes, cooling technology, performance & feature levels | Size & features inside the sample chamber and on the cold platform | Integrated modules which add additional capabilities for specific applications |
| >>Compare Architectures | >>Compare Size Classes | >>Explore Integrations |
Features
| Key Features | Key Benefits | |
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| Cryostat | Ultra-stable closed-cycle optical cryostat | |
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| Sample Space | Tabletop mounting architecture | |
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| Thermal Stability | Rock solid temperature stability | |
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| Mechanical Stability | Vibrations are no longer a concern | |
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| Sample Drift | CTE-cancelling sample platform | |
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| User Interface | Control via Windows based software on mini-laptop computer | |
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| Remote Interface | TCP/IP and LabVIEW | |
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| Control Unit | Powerful built-in electronics | |
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| Compressor | Variable Flow Helium compressor | |
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| Sample Mounting | Sample in vacuum | |
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| Optical Substrates | Fused silica AR coated 400-1000nm | |
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| CE Compliant | ||
Specification
HILA-8-22-17Related products
Montana Instruments
The Agile Temperature Sample Mount provides the solution for the highest level of positional stability for step-static and dynamic temperature changes from 4K to 350K while improving the speed to each set point. The unique position stabilizing support structure optimizes stage mechanical stiffness and rigidity while providing the thermal performance required for fast temperature changes. The structure reduces thermal contraction to below 30µm over the entire temperature range from less than 4K to 350K. This technology eliminates the need to re-focus after small temperature changes. Ultimately, you can be confident that an optimized focus will remain stable throughout a measurement.
Montana Instruments
A family of electrical mounts allow the user to pre-mount samples on small chips or circuit boards to easily make electrical connections. These have been specially designed to work with other mounts and configurations, with an emphasis on preserving thermal performance.
Montana Instruments
On most systems, both the outer vacuum housing (warm) and inner radiation shield (cold) windows may be easily replaced by the user within minutes. A variety of optical materials are available for different wavelengths and applications. The standard option is a VIS-NIR (400-1000nm) with Anti-Reflective (AR) coating.
Montana Instruments
This low temperature Raman microscope integration is optimized for high collection efficiency and throughput,
offering free space Raman signal collection via the Princeton Instruments FERGIE™ spectroscopy
system.
Montana Instruments
The CRYOSTATION® line has evolved from the original Montana Instruments system, which set new standards of performance and usability in a closed-cycle optical cryostat.
Montana Instruments
The CryoFMR turns the Cryostation with Magneto-Optic into a variable temperature Coplanar Waveguide Ferromagnetic Resonance (CPW-FMR) spectrometer.
Users would have the full capabilities of the Cryostation closed-cycle optical cryostat, as well as the Magneto-Optic module for their experiments.
Montana Instruments
The MAGNETO-OPTIC modules integrate a magnetic field directly into the cryogenic sample chamber. These add-on modules provide the same stability, automation, and control found in all Montana Instruments closed-cycle cryostats. Compatible accessories and add-ons allow users to configure the instrument for unique experimental requirements, including optional built-in piezo stages for sample motion. Performance Benefits Demanding magneto-optic […]
Montana Instruments
The CRYOSTATION® standard line evolved from the original Montana Instruments system, setting a new standard of performance and usability in a closed-cycle optical cryostat. It offers a versatile tabletop mounting architecture with patented vibration damping technologies to deliver exceptional thermal and vibrational performance without sacrificing ease-of-use. Today, the Cryostation s-series is available in a variety of configurations with additional […]