Description
iKon-L HF – Large Area Indirect Detection Fibre Optic CCD
Andor’s iKon-L HF is built for scientific imaging! The outstanding design brings together the key elements in a single optimized format; the highest QE (95%) Back-illuminated sensor, a single directly bonded FOP and a unique spring-loaded “Soft Dock” mount. This design delivers the highest transmission and spatial resolution optical performance combined with the ultra-low noise performance of the outstanding iKon-L platform.
The outstanding design brings together the camera’s key elements in a single optimized unit: the highest QE (95%) Back-illuminated sensor, a single directly bonded FOP and a unique spring-loading “Soft Dock” mount. This design delivers the highest optical performance high transmission, spatial resolution performance along with the ultra-low noise of the outstanding iKon-L platform.
This is the camera of choice for indirect high energy applications, energies from soft to hard X-ray were high spatial resolution imaging of low flux signal is required. We offer three variants to cover the most common requirements all of which can be further modified or changed to suit evolving need. The unique feature “Soft Dock” spring-loaded fibre optic allows quick and safe mounting of the camera to a wide variety of fragile instrumentation, streak cameras, image intensifiers as well as easy placement of a full range of “off the shelf” scintillators.
Applications
- X-ray Tomography
- Neutron Tomography
- X-ray Plasma Diagnostics
- X-ray Imaging
- Phase Contrast Imaging
- X-ray Crystallography
- X-ray Diffraction
Caractéristiques
- Soft Dock – Unique spring-loaded Fibre optic design allows the camera to be mounted safely and securely against fragile instrumentation
- Fiber optic fronted – 1:1 fibre optic as standard. Direct bonded for optimal transmission
- Peak QE of 95% – High detector sensitivity @ 550nm, peak scintillator emission
- 13.5 x 13.5 µm pixel size – Optimal balance of dynamic range and resolution
- Large area 2048 x 2048 sensor – Large field of view and high resolution
- TE cooling to -35°C – Minimization of dark current and pixel blemish
