Quest 2026
Paris, France
June 29-July 2, 2026
QUEST 2026 is the second conference on “Quantum Engineered Sensing and Information Technology” in Paris. The event will focus on the latest findings in quantum science and technology, as well as future trends in quantum sensing, photonics, and nanotechnology. For three days, scientists and industry experts will come together to discuss the diverse applications of quantum technology in various sessions and roundtables. Quantum detection also plays an important role in many new applications and will be addressed in several presentations.
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Presentation


Johannes Kunsch
LASER COMPONENTS Germany
Title of Presentation:
Nano-/micro-prism-based IV-VI lead selenide photoconductive detector
QUEST 2026
Abstract
PbSe detectors remain a leading choice for the 3–5 µm spectral range due to their strong balance of size, weight, power consumption, cost, and performance, particularly under uncooled operating conditions. The most common fabrication method is Chemical Bath Deposition (CBD), where substrates are immersed in a chemical solution to deposit polycrystalline thin films. CBD is attractive because of its simplicity, scalability, and compatibility with large-area manufacturing; however, challenges remain in process reproducibility and film uniformity.
A key step in device fabrication is sensitization, which activates the film’s photoresponse. As-grown PbSe films typically exhibit low photosensitivity and therefore require thermal treatment in controlled atmospheres, commonly involving oxygen- and iodine-based processes. These treatments introduce chemical and structural modifications, including the formation of lead-oxide and lead-oxyselenide phases (e.g., PbSeO₃) at grain boundaries, which are believed to strongly influence carrier transport and photoconductive gain. Several models have been proposed to explain the operation of sensitized PbSe detectors, including grain-boundary barrier modulation, junction-like charge-separation effects at crystallite surfaces, and trap-assisted conduction. The exact operating mechanism remains an active area of research, emphasizing the need for deeper material and device-level understanding.
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