Research and development has always been at the heart of Edinburgh Instruments’ business. As R&D requirements evolve, we are committed to providing modern solutions to satisfy our customers’ current needs.
We have recently upgraded an existing FLS980 Fluorescence Spectrometer with the capability to measure over a large temperature range, from <3 K to 300 K, without the need for cryogenic liquids such as liquid nitrogen and the even rarer liquid helium. This is made possible by integrating the new OptistatTM Dry from Oxford Instruments which utilises a Gifford-McMahon cooler with a helium gas closed circuit. This effectively eliminates the need for continuous supply of liquid helium in steady-state and time-resolved photoluminescence measurements at temperatures down to 3 K. Measurements at these temperatures are essential in the study of semiconductors and non-linear crystals, due to their weak photoluminescence at room and liquid nitrogen temperature.
The Oxford Instruments Optistat Dry, launched earlier this year, provides great benefits in terms of ease of use and running costs. New software was developed to allow the cryostat operation to be controlled directly from within the F980 operating software of the FLS980 Fluorescence Spectrometer, allowing us to provide a fully integrated solution. By working with this new technology, we have enabled our customers to work with various samples over a wide temperature range, without the need for cryogenic consumables, and enabling long experiments to run without interruption.
Furthermore, Edinburgh Instruments is looking into integrating OptistatTM Dry into our FS5 Spectrofluorometer to make this option available to all of our customers.
As one of the world’s leading manufacturers of state-of-the-art fluorescence spectroscopic instrumentation, we pride ourselves in being able to meet the most demanding research and technical requirements.