Lake Shore Cryotronics will be at next week’s ACS Spring exhibit in Atlanta, discussing a range of products optimized for chemistry research, including a new fully integrated spectroscopy system for performing Mössbauer experiments at cryogenic temperatures. 

The CryoComplete Mössbauer system is the only commercial solution offering a cryostat purpose-designed for Mössbauer experiments, complete with temperature control and integrated measurement coordination — all from a single vendor.

With Lake Shore’s CCS-800 Mössbauer cryostat, Model 335 temperature controller, and Iron Analytics’ high-performance CTS5 spectrometer, this system supports low-temperature Mössbauer spectroscopy with unmatched stability and control. The cryostat is designed specifically for Mössbauer geometry, minimizing background signal and maximizing sample access. Plus, the system's MeasureLINK™ software simplifies temperature control for measurements.

Also available: Mössbauer RT, for labs and institutions seeking to perform high-resolution room-temperature Mössbauer spectroscopy with industry-trusted technology.

In addition to Mössbauer systems, Lake Shore will be answering questions about other lab cooling products, including:

• ST-FTIR and STVP-FTIR LHe/LN₂ and VPF-FTIR LN₂ cryostats optimized for use with commercial FTIR spectrometers, all featuring a four-way optical sample chamber configurable for reflectance or transmission measurements
• Low-vibration ST-500 LHe/LN₂ cryostats specially designed for use in microscopy, Raman spectroscopy, and high spatial resolution photoluminescence applications, and compact enough for mounting on microscope stages and translators
• Infinite Helium™, an award-winning, fully automated recirculating gas cooler system that enables a LHe cryostat to operate cryogen-free (and when ordered with the low-vibration option, offers best-in-class vibration levels for ST-500 microscopy applications)
• Various closed-cycle, cryogen-free cryostats for measurements of bulk samples
• UHV ST-400 cryostats for low-temperature surface science

Also at ACS Spring, Lake Shore will be available to discuss its:

• Electromagnet‑based MagRS system with 8600 VSM option for magnetic material characterization, such as for studies of how chemical processes alter magnetic behavior, with sample holders available for both liquids and powders
• Cryogenic probe stations for on-wafer characterization of samples across a wide temperature range; available with load-lock and vacuum suitcase options for controlled transfer of chemically sensitive samples
• Wide selection of cryogenic sensors and instruments for stable control of variable temperature experiments