Both the Andor Newton EMCCD spectroscopy detectors and Newton conventional CCD spectroscopy detector systems have been optimized for high performance spectroscopic applications. The Newton EMCCD employs Andor's pioneering electron multiplying CCD platform with exclusive sensor formats optimized for ultra-low light level spectroscopy applications.

Newton 920

Newton 920 has ability to acquire over 1600 spectra per second, with -100°C cooling and the widest range of sensor options, makes the Newton spectroscopic CCD the highest performing spectroscopy CCD on the market.

• Peak QE up to 95%

• Extended range dual-AR option

• TE cooling down to -100oC

• Ultravac™

• Multi-Megahertz Readout

Newton 940

The Newton 940 spectroscopic CCD camera series utilizes a 1024 x 255 or 2048 x 512 array of 26 μm or 13.5 μm pixels, with thermoelectric cooling down to -100°C, resulting in negligible dark current and provides unrivalled performance for spectroscopic applications.

• Multi-Megahertz Readout

• TE cooling to -100°C

• UltraVac™

• Down to 13.5 x 13.5 μm pixel size

• Crop Mode Operation

Newton 970

Newton 970 offers Unrivalled EMCCD performance for spectroscopic applications. It utilizes a 1024 x 255 or 2048 x 512 array of 26 μm or 13.5 μm pixels, with thermoelectric cooling down to -100°C, resulting in negligible dark which provides unrivalled performance.

• EM sensor

• Multi-Megahertz Readout

• TE cooling to -100°C

• UltraVac™

• 16 x 16 μm pixel size

Newton 971

Newton 971 - The most sensitive EMCCD spectroscopic detector ever offer you active pixels of 1600*400 alon with 16 x 16 μm Pixel size along with the -100°C TE cooling. It’s variable readout rates enable data readout at up to 3 Megahertz, through the plug and play USB interface.

• EM sensor

• Multi-Megahertz Readout

• TE cooling to -100°C

• UltraVac™

• 16 x 16 μm pixel size