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 CRYOSTATION® crossover premium (xp) platform integrates pumped liquid helium cooling technology with the benefits of an automated, closed-cycle (helium-free) cryostat. Leveraging many of the proven technologies found in the original Cryostation systems, the xp-series retains the level of reliability, flexibility, and usability required to become a workhorse in any lab. The platform offers a turn-key solution for the most demanding users, making it easier than ever to reach and maintain temperatures below 2K.
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 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 world’s first commercial single photon chip meets the industry leading closed-cycle optical cryostat.
The new SPARROW single-photon source is based on self-assembled InAs quantum dots coupled to a slowlight photonic-crystal waveguide made using a unique processing technology.
The proven performance of the Cryostation provides the ideal environment for the chip to operate.
Montana Instruments
A series of fixed and adjustable sample mounts, stages, and holders are available in both stock and custom designs. A summary of these options is listed below:
For sample mounting requiring electrical connections, piezo-actuated motion/positioning, or temperature control of the sample, please refer to the various special purpose categories on Stages & Sample Mounting Options. Many of the options below are compatible with these special purpose mounts.
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 […]
Montana Instruments
Transmission Mössbauer Spectrometer for the CRYOSTATION®
The Cryo Mössbauer offers a complete, integrated solution for variable temperature transmission mössbauer spectra measurements. The MS96 spectrometer is coupled with the Montana Instruments Cryostation
sample chamber in a straightforward and user-friendly design. Improve efficiency and quality of results with the combination of two industry-leading performance systems.
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.