Teledyne e2v has been awarded funding in two separate Defence and Security Accelerator (DASA) competitions enabling the development of â€œRadiation-Hard Infrared Detectors for Space Applicationsâ€ and novel detector materials addressing multiple wavebands or photon counting in the IR range.
CHELMSFORD, UK, May 6, 2020 â€” Teledyne e2v is pleased to announce that it is well underway on the development of a UK-designed detector capability for infrared wavelengths that will lead to an exportable family of infrared detector products.
The areas of development that funding has been awarded for are:
- III-V Barrier Diode Radiation-Hard Infrared Detectors for Space Applications
- 2-Colour T2SL Detector Technology â€“ deep-dive investigation
III-V detectors relate to a group of semiconductor compounds listed in the 13th and 15th column of the periodic table and referred to as III-V, whereas other infrared detectors may be referred to as II-VI. Find out more here.
First announced at the UK Space Conference, September 2019 in Cardiff, Wales, by Defence Science and Technology Laboratory (Dstl), Teledyne e2v was awarded funding from the Space to Innovate Phase 1 competition and will be delivering prototype III-V barrier diode wafers and detector packages for radiation tolerance hardness testing and characterisation.
During March 2020 under the Defence and Security Accelerator (DASA) competition â€“ â€œAdvanced Vision for 2020 and Beyondâ€, Teledyne e2v was awarded the maximum amount achievable from the competition for â€œdeep-diveâ€ investigations and development of two-colour type-2 superlattice (T2SL) detector technology.
Peter Stocken, Business Development Manager â€“ Space & Defense Imaging at Teledyne e2v said: â€œIt is fantastic to be part of a world-class team developing a new and novel infrared detector capability, the funding awards will accelerate the realisation of this technology and they reflect the high confidence in Teledyne e2vâ€™s development in detector and associated technologies.â€
Andy Cole, Dstl Project manager said: â€œThe ever evolving nature of military operations means that we wish to invest in novel and resilient technologies that can function in contested and congested environments, that will extend the range, lower the cost and size, and expand the range of targets that can be addressed by EOIR sensors.â€
Teledyne e2v has expertise and significant heritage in the development of custom CCD and CMOS image sensors, radiation effects characterisation, space qualification of systems and devices, up screening of commercial-off-the-shelf (COTS), ROIC design, detector packaging, and specialist coatings and quantum efficiency (QE) enhancement techniques, including proprietary and world-class back-thinning of image sensors, covering the full spectrum from x-ray, ultraviolet through visible and near-infrared.
Teledyne e2v is working with Amethyst Research Limited in the development of III-V and T2SL detectors. These developments will enable a new generation of extended short wave infrared (eSWIR), medium wave infrared (MWIR) and long wave infrared (LWIR) detector solutions for a range of standard and custom resolutions for space, defense, astronomy and scientific applications.
Further information can be found at:
Mark Bown, Head of Marketing – Space Imaging