2312680 – Single-Photon Detectors

A wide range of applications (integrated quantum optics, spectroscopy, time-of-flight ranging and imaging, quantum key distribution, security, etc.) require receiving systems based on detectors sensitive to excitations on a level of single-photon only. In the SPD course of lectures, single-photon detectors based on the interaction of light with metals, semiconductors, and superconductors will be considered in terms of the physics of their response mechanisms, technology, and phenomena that determine and limit their characteristics important for applications. The course is proposed to students who are interested in material research, the development of optical applications, and the study of physical processes in metals, semiconductors, and superconductors excited by the quantum of electromagnetic radiation.

Allgemeine Informationen

Kursprogramm

• Applications of single-photon detectors (SPD)
• Detection system and light-matter interaction
• Basic characteristics of SPDs and experimental methods of their determination
• Photoelectric effect: photomultiplier tubes (PMT); microchannel plate (MCP)
• Semiconducting detectors: photoresistor, PIN photodiode, avalanche photodiode (APD), single-photon avalanche diode (SPAD), visible light photon counter (VLPC), quantum dot field-effect transistor (QD-FET)
• Superconducting detectors: transition edge sensor (TES), superconducting tunnel junction (STJ), superconducting nanowire single-photon detector (SNSPD)
• Hybrid detection system

Veranstaltungsdaten

Dozent(en)

Konstantin Ilin

Studiengang

ETIT

Abschluß

Master

SWS

2+1

Start

25. Okt 2022

Ende

14. Feb 2023

Veranstaltungsart

Vorlesung/Übung

Modulart

Wahlfach

Ort

Lectures: bld. 11.10, Engelbert-Arnold-Hörsaal (EAS); Exercises: bld. 11.10, kleiner ETI HS

Termin

see "SPD_Schedule_WS22_23.pdf"

Allgemein

Sprache

Englisch

Kontakt

Name

Konstantin ILIN

Telefon

072160844992

E-Mail

konstantin.ilin@kit.edu

Verfügbarkeit

Zugriff

Unbegrenzt – wenn online geschaltet

Aufnahmeverfahren

Sie können diesem Kurs direkt beitreten.

Zeitraum für Beitritte

Unbegrenzt

Veranstaltungszeitraum

25. Okt 2022 - 14. Feb 2023

Für Kursadministration freigegebene Daten

Daten des Persönlichen Profils

Anmeldename
Vorname
Nachname
E-Mail
Matrikelnummer

Zusätzliche Informationen

Objekt-ID

2569469