Explores gaseous ionisation detectors, including ionisation chambers, proportional counters, and Geiger-Müller counters, discussing their principles, operation, and applications.
Discusses the fundamental properties and characteristics of optical detectors, including responsivity, quantum efficiency, and the impact of noise on detection limits.
Explores ptychography for imaging atoms and fields at picometer scale, covering resolution limits, depth sectioning, Lorentz microscopy, and detector advancements.
Covers infrared photodetectors, focusing on MSM detectors and photoconductors, their structures, advantages, disadvantages, and operational principles.
Explores homodyne detection in optomechanics, addressing limitations of diode rectification and showcasing the advantages of homodyne detection over traditional methods.
Explores the detection of stable particles in particle physics experiments, covering observed and unobserved particles, their lifetimes, and the impact of Lorentz boost.
