Description
Newton 970
Newton 970 offers Unrivalled EMCCD performance for spectroscopic applications. It utilizes a 1024 x 255 or 2048 x 512 array of 26 m or 13.5 m pixels, with thermoelectric cooling down to -100°C, resulting in negligible dark which provides unrivalled performance.
Electron Multiplying technology provides unparalled sensitivity.
Multi-MHz readout rates, -100°C cooling up to 95% Quantum Efficiency make Newton the ultimate spectroscopy detector. EM technology enables charge from each pixel to be multiplied on the sensor before readout, providing single photon sensitivity with up to 3 Megahertz readout and USB connectivity. The camera utilizes a 1600 x 200 array of 16 m pixels with thermoelectric cooling down to -100°C resulting in negligible dark current and provides unrivalled performance for spectroscopic applications. The dual output amplifiers allow software selection between either a conventional High Sensitivity or Electron Multiplying outputs.
| Active pixels | 1600 x 200 |
| Pixel size (W x H) | 16 x 16 m |
| Image area | 25.6 x 3.2 mm (100% fill factor) |
| Output node well depth (typical) High Sensitivity mode Electron Multiplying mode |
300,000 e- 1,300,000 e- |
| Maximum cooling | -100 ºC |
| Maximum spectra per sec | 1,515 |
| Read noise | < 1 e- in EM mode |
| Dark current | As low as 0.0002 e-/pixel/sec |
