Learning Center  /  Scientific  /  eXcelon

eXcelon® Process

eXcelon® and eXcelon®3 technologies are sensor processes which radically improve the sensitivity of back-illuminated CCD and EMCCD detectors across a wide spectral range. Both technologies significantly reduce etaloning — the problematic appearance of fringes caused by constructive and destructive inference in a device’s back-thinned silicon — while imaging in the 750 – 1100 nm range (NIR).

eXcelon-image.png

Key Features

enhanced-sensitivity-new-titles.png

Enhanced Sensitivity

eXcelon technology increases sensitivity across a broader wavelength range than standard thinned back-illuminated CCDs. By improving sensitivity below 500 nm and above 625 nm, eXcelon is able to obtain a 15-20% maximum quantum efficiency increase.

 

Reduced etaloning and dark current

eXcelon technology reduces the etaloning present on thinned back-illuminated CCD sensors over the NIR wavelength range.

In addition, thinned back-illuminated CCD sensors coated with eXcelon technology are able to provide lower levels of dark current than deep-depleted back-illuminated sensors while maintaining high quantum efficiency at lower wavelengths.

excelon-primer-technology-with-titles-03.jpg

 

eXcelon3_QE-2-e1586442747599.png

eXcelon3

eXcelon3 is specifically developed for EMCCD detectors. Traditional back-illuminated EMCCDs are capable of single-photon sensitivity, yet they lack high QE in the UV and NIR regions and suffer from etaloning in the NIR region.

eXcelon3 overcomes both of these limitations, providing up to a 3x increase in QE in the UV region and a 1.3x increase in the NIR.

It also reduces etaloning by up to 70%, with a peak-to-peak fringe amplitude of below 10%.

 

Related Products

Articles
Tech Note

eXcelon® Technology – Novel, Performance Enhancing CCD Technology

Read the Story
Application Note

Next-generation, performance-enhancing EMCCD technology

Read the Story

Request Info

Optin

By submitting you agree to Teledyne Vision Solutions' privacy policy and cookie policy.