Fluke Biomedical
The VT900A Gas Flow Analyzer provides the highest accuracy for testing gas flow and respiratory medical equipment.
Fluke Biomedical
The VT900A + VAPOR is designed to efficiently and reliably perform a full anesthesia machine PM, from ventilators to vaporizers.
The VAPOR Anesthesia Tester is an accessory to the VT900A that expands your testing capability to vaporizers. VAPOR automatically detects the 5 major anesthetic agents, CO2, and N2O, and identifies them by their international color code for easy identification – no effort on your part.
Fluke Biomedical
This handheld device simulates a full range of cardiac rhythms and a wide variety of electrocardiogram conditions. It includes pacemaker simulation, 35 arrhythmia selections, and adult and pediatric normal-sinus rhythms.
Fluke Biomedical
At week five, a fetus’ heart starts beating, increasing to 155 to 195 beats per minute prior to birth. The strength and number of beats can be measured by a fetal electronic monitor to determine whether a fetus is in distress. The PS320 fetal simulator mimics fetal and maternal heartbeats (ECG), along with uterine activity during labor to accurately test and troubleshoot fetal electronic monitors.
Fluke Biomedical
The MAXO2+AE is an oxygen analyzer that measures the oxygen concentration in a flow of gas from a medical gas source or through a medical gas-flow device such as a ventilator or anesthesia system, or within an infant incubator. It is handheld and rugged to suit the needs of portable use. The MAXO2+ AE comes equipped with a two-year warranty on both analyzer and sensor.
Radiation Safety
Spend more time on measurements and less time on settings. Just turn on the instrument and within a few seconds you are ready to measure. The RaySafe 452 does not require any corrections or manual settings, letting you focus on radiation protection rather than set-up.
The intuitive interface shows all parameters in one view. All measurement data is stored automatically, and the included PC software RaySafe View provides easy data transfer for further analysis and data storage.
One device for every situation means less to carry, learn and administrate. That equals less expense, more efficiency and time savings.
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.
Integrated Solutions
This system combines the powerful capabilities of the Durham Magneto-Optics NanoMOKE3 with the flexibility of the closed cycle optical Cryostation for low temperature Magneto-Optic Kerr Effect (MOKE) applications. *
Users would have the full capabilities of the Cryostation closed-cycle optical cryostat, as well as the Magneto-Optic module for their experiments.
Integrated Solutions
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.
Integrated Solutions
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.
Integrated Solutions
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.
Accessories
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.