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PhD Position Electrical Engineering: Cryo-CMOS Circuit Design for Temperature Sensors in Quantum

Ente di ricercaScadenza 6 settembre 2026
Ente
Delft University of Technology (TU Delft)
Paese
Paesi Bassi
Campo di ricerca
Engineering » Electrical engineering Engineering » Electronic engineering
Lingua dell’annuncio
Inglese
Tipo di contratto
Temporary
Profilo ricercato
Ricercatore in ingegneria elettrica
Sede
Delft, Paesi Bassi
Pubblicato il
Scadenza
6 settembre 2026

Descrizione

PhD Position Electrical Engineering: Cryo-CMOS Circuit Design for Temperature Sensors in Quantum Sintesi in italiano (traduzione automatica): L'organizzazione TU Delft offre una posizione di dottorato in ingegneria elettrica, focalizzata sul design di circuiti integrati cryo-CMOS per sensori di temperatura in applicazioni quantistiche. Il candidato contribuirà allo sviluppo di interfacce elettroniche cryogeniche, essenziali per il funzionamento di computer e sensori quantistici. È richiesta una laurea magistrale in ingegneria elettrica e un forte interesse per il design di circuiti integrati analogici. Il lavoro prevede la progettazione, simulazione e caratterizzazione di prototipi, con opportunità di collaborare con ricercatori e partner industriali. La posizione offre la possibilità di sviluppare competenze in circuiti integrati analogici e tecnologie semiconduttori, preparando il candidato per carriere in ambito accademico e industriale. Contribute to quantum technologies by developing integrated cryogenic temperature sensors. Join our vibrant team in demonstrating cryo-CMOS integrated circuits enabling the next quantum technologies! Job Description Quantum computers and quantum sensors require electronic interfaces that can operate reliably at cryogenic temperatures. However, conventional room-temperature electronics rely on extensive wiring, creating significant challenges for scalability, system integration, and performance. In this PhD project, you will contribute to the development of cryogenic electronic interfaces that support future quantum technologies. You will join a leading research group at TU Delft that pioneers cryo-CMOS integrated circuits: CMOS circuits operating at temperatures as low as 4 K. These technologies enable highly integrated electronic systems for quantum computing and sensing applications and offer unique opportunities for innovation in analog and mixed-signal circuit design. Your research will focus on the development of integrated cryogenic temperature sensors. Accurate temperature monitoring is essential for thermal management in complex quantum systems, where temperature variations can affect performance and reliability. Existing cryogenic sensors are often bulky, costly, and difficult to integrate. Although smart temperature sensors in CMOS technology have been developed for decades over the standard temperature range around room temperature, those standard techniques cannot be readily applied at cryogenic temperatures, thus requiring innovations in terms of sensing elements, readout circuitry, and power efficiency. You will then investigate new sensing principles and develop energy-efficient sensor architectures specifically designed for operation at cryogenic temperatures. Throughout your PhD, you will design, simulate, fabricate, and characterize multiple cryo-CMOS prototypes using advanced CMOS technologies. You will perform measurements in TU Delft’s dedicated cryogenic characterization facilities and gain experience with the complete integrated circuit design cycle, from concept development to experimental validation. You will work closely with researchers, PhD candidates, and industrial partners active in cryogenic electronics and quantum technologies. Your results will contribute to international research projects and will lead to presentations at leading conferences and publications in high-impact journals. This position offers the opportunity to develop expertise in analog integrated circuit design, cryogenic electronics, and semiconductor technologies while growing into an independent researcher. The knowledge and skills acquired during the project provide a strong foundation for careers in academia, research institutes, and the semiconductor and high-tech industries. Are you interested in knowing more about our section or department? Please visit our webpages: About Quantum Circuits, Architecture, and Technology (QCAT) section About Quantum and Computer Engineering (QCE) department Job requirements You hold an MSc degree in Electrical Engineering (must-have). You have a strong interest and demonstarted interest in analog integrated circuit design Hands-on experience in circuit design, gained thorugh academic research, industry projects, or internships, is considered an advantage. You demonsrated strong analytical, creative, and problem-solving abilities. You have excellent written and verbal communication skills in English. Ability and eagerness to work in an international collaborative environment. To thrive as a PhD candidate, it is crucial to have a strong research mindset driven by curiosity and passion for your topic. Reflecting on your motivation for pursuing a PhD trajectory is essential, as this path involves unique challenges and uncertainties inherent to scientific exploration. Success requires dedication, adaptability, the ability to analyze complex problems, manage your time effectively, innovate and s Annuncio in inglese. Fonte: Euraxess (Commis

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Fonte: Euraxess (Commissione europea) · Servizio indipendente

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