To meet the challenges of this demanding application – Resolve Optics designed the UV zoom lens to optimally operate from 10 to 55ºC. By incorporating a telescopic focus in the design, the novel lens can image objects from 3m to infinity. Miniature motors on the lens allow accurate remote setting of both zoom and focus functions. A filter slide was also incorporated in the design enabling the lens to be switched between UV (270 to 350 nm) and visible (400 to 700 nm) without the need for refocusing. The lens achieves high image resolution with low distortion throughout the zoom range without refocusing. A lockable C mount ensures the lens cannot come loose during operation.
The Digital Cerenkov Viewing Device equipped with UV Zoom lens provides a highly effective system that captures the Cerenkov image of spent nuclear fuel for analysis and comparison.
For further information on application optimised UV lenses please visit https://www.resolveoptics.com/uv-ir-and-swir-lenses/ or contact Resolve Optics on +44-1494-777100 / firstname.lastname@example.org
For over 20 years, Resolve Optics has developed a customer centric approach to specialist lens design, development and supply. The company prides itself on nearly three decades of quickly translating each customer need into an optimised optical design, running projects successfully, and manufacturing production quantities of lenses or optical products on time, to the specified quality and target price.
Application Optimised UV Lenses
Product News Thursday, January 26, 2023: Resolve Optics Ltd.
Resolve Optics is a leading supplier of application optimised fixed focus and zoom lenses designed to enable high performance measurements in the ultraviolet (UV) waveband (200-400 nanometres).
To provide inspectors with an effective tool for non-intrusive verification of spent nuclear fuel, a global leader in nuclear safeguards technology asked Resolve Optics to design a wavelength corrected UV Zoom lens to enable its Digital Cerenkov Viewing Device to view a nuclear fuel assembly situated 13 metres away from the lens and through 10 metres of water. Spent nuclear fuel emits a faint UV (Cerenkov) light when gamma rays from fuel assemblies interact with electrons in the cooling pond water.