Electron charge sensor with hole current operating at cryogenic temperature

Electron charge sensor with hole current operating at cryogenic temperature

When silicon-on-insulator p-type MOSFET (SOI-PMOS) functions like a capacitor-less 1T-DRAM cell, it is possible for the number of electrons to be sensed at cryogenic temperatures (5 K). We developed a structure that combines silicon-on-insulator n-type MOSFETs (SOI-NMOS) and SOI-PMOS with multiple g...

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Veröffentlicht in:Applied physics express 2023-03, Vol.16 (3), p.36504
Hauptverfasser: Hisamoto, Digh, Lee, Noriyuki, Tsuchiya, Ryuta, Mine, Toshiyuki, Utsugi, Takeru, Saito, Shinichi, Mizuno, Hiroyuki
Format: Artikel
Sprache:eng
Schlagworte:
1-T DRAM
cryogenic temperature
electron charge sensor
hole current
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Zusammenfassung:When silicon-on-insulator p-type MOSFET (SOI-PMOS) functions like a capacitor-less 1T-DRAM cell, it is possible for the number of electrons to be sensed at cryogenic temperatures (5 K). We developed a structure that combines silicon-on-insulator n-type MOSFETs (SOI-NMOS) and SOI-PMOS with multiple gates to form a silicon quantum-dot array. In this structure, a variable number of electrons is injected into the SOI-PMOS body by means of the bucket-brigade operation of SOI-NMOS connected in series. The channel-hole current was changed by the injected electrons due to the body bias effect in SOI-PMOS, and the change appeared to be step-like, which suggests a dependence on the elementary charge.
ISSN:1882-0778
1882-0786
DOI:10.35848/1882-0786/acc3dc