| Literature DB >> 26431895 |
Maarten Kuijper1, Gerald van Hoften1, Bart Janssen1, Rudolf Geurink1, Sacha De Carlo2, Matthijn Vos1, Gijs van Duinen1, Bart van Haeringen1, Marc Storms1.
Abstract
In early 2011 FEI Company launched the "Falcon", its first commercial direct electron detector product intended for application in 3-D electron microscopy in the life sciences. In this paper we discuss the principle of direct electron detection and its implementation in Falcon cameras. We describe the signal formation in the sensor and its impact on the detection quantum efficiency (DQE) of the sensor. Insights into the signal formation led us to improved camera designs. Three significant improvements are discussed. (1) Back thinning of the sensor. This is implemented in the second-generation Falcon (Falcon 2), where the sensor thickness is reduced to 50 μm, and in the latest generation Falcon 3 detector with further back-thinning down to 30 μm. (2) The introduction of electron counting, a signal processing technology implemented in Falcon 3. (3) Dose fractionation mode, which allows the user to access intermediate results during the illumination of the sample.Keywords: CMOS; Cryo-EM; DQE; Direct electron detector; Electron counting; MTF; TEM
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Year: 2015 PMID: 26431895 DOI: 10.1016/j.jsb.2015.09.014
Source DB: PubMed Journal: J Struct Biol ISSN: 1047-8477 Impact factor: 2.867