02292nam a22003738i 450099100440492940753620251113132524.0251107s2022 nju r 001 0 eng d9781119834687(cloth)9781119834694(adobe pdf)9781119834717(epub)Bibl. Dip.le Aggr. Matematica e Fisica - Sez. FisicaengTK7872.S8539.7753.8.253.8.4Polushkin, Vladimir1657087Nuclear electronics with quantum cryogenic detectors /Vladimir Polushkin2nd ed.Hoboken, NJ :John Wiley & Sons,2022xv, 429 p. :ill. ;29 cmtexttxtrdacontentunmediatednrdamediavolumencrdacarrierIncludes indexBuilding upon the first edition of Nuclear Electronics (Wiley 2005), the author returns with a focus on the technology of cryogenic detectors. Those of the quantum mechanical nature at ultra-low temperatures provide the best resolution, accuracy, and speed as radiation measurement tools. Providing reliable, powerful, and ultimately high-resolution diagnostic test results, a new generation of quantum cryogenic devices has appeared which are essential for Big Science (Astrophysics, Cosmology). For example, they are already installed in several large ground telescopes and will constitute base technology in the high-resolution spectrometer camera onboard the next X-ray telescope built by the European Space Agency (ESA), Athena, to be launched in 2032. However, analysis has shown that quantum cryogenic detectors are not used solely as stand-alone instruments but are often paired with semiconductor large frame cameras which provide a broad picture of a sky or chemical sample. This new edition considers the interaction of semiconductor detectors with quantum devices to produce an essential one-stop referenceSuperconductorsNuclear countersSemiconductor nuclear countersMolecular electronicsNanotechnology991004404929407536Nuclear electronics with quantum cryogenic detectors4010298UNISALENTO