CESAR: Cryogenic Electronics for Space Applications

Marco Barbera; null Pannetier-Lecoeur; null Carr; null Revéret; null Pigot; null Lo Cicero; null Jin; null Rodriguez; null Kiraly; null Whiteside; null Fermon; null Brown; null Long; null Putzeys; null Marnieros; null Sauvageot; null Bouchier; null Kiss; null De La Broïse

CESAR: Cryogenic Electronics for Space Applications

Marco Barbera, Pannetier-Lecoeur, Carr, Revéret, Pigot, Lo Cicero, Jin, Rodriguez, Kiraly, Whiteside, Fermon, Brown, Long, Putzeys, Marnieros, Sauvageot, Bouchier, Kiss, De La Broïse

Fisica e Chimica - Emilio Segrè

Risultato della ricerca: Article › peer review

6 Citazioni (Scopus)

Abstract

Ultra-low temperature sensors provide unprecedented performances in X-ray and far infrared astronomy by taking advantage of physical properties of matter close to absolute zero. CESAR is an FP7 funded project started in December 2010, that gathers six European laboratories around the development of high performances cryogenic electronics. The goal of the project is to provide far-IR, X-ray and magnetic sensors with signal-processing capabilities at the heart of the detectors. We present the major steps that constitute the CESAR work, and the main results achieved so far.

Lingua originale	English
pagine (da-a)	1-7
Numero di pagine	7
Rivista	Journal of Low Temperature Physics
Volume	in press
Stato di pubblicazione	Published - 2013

All Science Journal Classification (ASJC) codes

???subjectarea.asjc.3100.3107???
???subjectarea.asjc.2500.2500???
???subjectarea.asjc.3100.3104???

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title = "CESAR: Cryogenic Electronics for Space Applications",

abstract = "Ultra-low temperature sensors provide unprecedented performances in X-ray and far infrared astronomy by taking advantage of physical properties of matter close to absolute zero. CESAR is an FP7 funded project started in December 2010, that gathers six European laboratories around the development of high performances cryogenic electronics. The goal of the project is to provide far-IR, X-ray and magnetic sensors with signal-processing capabilities at the heart of the detectors. We present the major steps that constitute the CESAR work, and the main results achieved so far.",

author = "Marco Barbera and Pannetier-Lecoeur and Carr and Rev{\'e}ret and Pigot and {Lo Cicero} and Jin and Rodriguez and Kiraly and Whiteside and Fermon and Brown and Long and Putzeys and Marnieros and Sauvageot and Bouchier and Kiss and {De La Bro{\"i}se}",

year = "2013",

language = "English",

volume = "in press",

pages = "1--7",

journal = "Journal of Low Temperature Physics",

issn = "0022-2291",

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TY - JOUR

T1 - CESAR: Cryogenic Electronics for Space Applications

AU - Barbera, Marco

AU - Pannetier-Lecoeur, null

AU - Carr, null

AU - Revéret, null

AU - Pigot, null

AU - Lo Cicero, null

AU - Jin, null

AU - Rodriguez, null

AU - Kiraly, null

AU - Whiteside, null

AU - Fermon, null

AU - Brown, null

AU - Long, null

AU - Putzeys, null

AU - Marnieros, null

AU - Sauvageot, null

AU - Bouchier, null

AU - Kiss, null

AU - De La Broïse, null

PY - 2013

Y1 - 2013

N2 - Ultra-low temperature sensors provide unprecedented performances in X-ray and far infrared astronomy by taking advantage of physical properties of matter close to absolute zero. CESAR is an FP7 funded project started in December 2010, that gathers six European laboratories around the development of high performances cryogenic electronics. The goal of the project is to provide far-IR, X-ray and magnetic sensors with signal-processing capabilities at the heart of the detectors. We present the major steps that constitute the CESAR work, and the main results achieved so far.

AB - Ultra-low temperature sensors provide unprecedented performances in X-ray and far infrared astronomy by taking advantage of physical properties of matter close to absolute zero. CESAR is an FP7 funded project started in December 2010, that gathers six European laboratories around the development of high performances cryogenic electronics. The goal of the project is to provide far-IR, X-ray and magnetic sensors with signal-processing capabilities at the heart of the detectors. We present the major steps that constitute the CESAR work, and the main results achieved so far.

UR - http://hdl.handle.net/10447/89266

M3 - Article

VL - in press

SP - 1

EP - 7

JO - Journal of Low Temperature Physics

JF - Journal of Low Temperature Physics

SN - 0022-2291

ER -

CESAR: Cryogenic Electronics for Space Applications

Abstract

All Science Journal Classification (ASJC) codes

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