Dc modulation in field-effect transistors operating under microwave irradiation for quantum readout

G. Ferrari; Laura Fumagalli; M Sampietro; E Prati; M Fanciulli

Dc modulation in field-effect transistors operating under microwave irradiation for quantum readout

G. Ferrari, Laura Fumagalli, M Sampietro, E Prati, M Fanciulli

Research output: Contribution to journal › Article › peer-review

Abstract

With a view to using microwaves to excite the single-spin resonance of an electron trapped in a defect at the Si∕SiO2Si∕SiO2 interface of a metal-oxide-semiconductor field-effect transistor(MOSFET), we report on the experimental evidence for a stationary current in such devices operated under microwave radiation. The stationary current is examined as a function of the microwave power and of the operating voltage of the MOSFET. The transistor behavior is reproduced by a model exploiting the nonlinearity of the MOSFET channel resistance as a component of the circuit coupled with the electromagnetic field. We conclude that, in operating a MOSFET under microwaves, one has to pay attention to the generation of spurious stationary currents that may alter the likelihood to observe spin-dependent phenomena in the random telegraph signal observed in a MOSFET.

Original language	English
Pages (from-to)	044505
Journal	Journal of Applied Physics
Volume	98
Issue number	4
Publication status	Published - 2005

Cite this

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title = "Dc modulation in field-effect transistors operating under microwave irradiation for quantum readout",

abstract = "With a view to using microwaves to excite the single-spin resonance of an electron trapped in a defect at the Si∕SiO2Si∕SiO2 interface of a metal-oxide-semiconductor field-effect transistor(MOSFET), we report on the experimental evidence for a stationary current in such devices operated under microwave radiation. The stationary current is examined as a function of the microwave power and of the operating voltage of the MOSFET. The transistor behavior is reproduced by a model exploiting the nonlinearity of the MOSFET channel resistance as a component of the circuit coupled with the electromagnetic field. We conclude that, in operating a MOSFET under microwaves, one has to pay attention to the generation of spurious stationary currents that may alter the likelihood to observe spin-dependent phenomena in the random telegraph signal observed in a MOSFET.",

author = "G. Ferrari and Laura Fumagalli and M Sampietro and E Prati and M Fanciulli",

year = "2005",

language = "English",

volume = "98",

pages = "044505 ",

journal = "Journal of Applied Physics",

issn = "0021-8979",

publisher = "American Institute of Physics",

number = "4",

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TY - JOUR

T1 - Dc modulation in field-effect transistors operating under microwave irradiation for quantum readout

AU - Ferrari, G.

AU - Fumagalli, Laura

AU - Sampietro, M

AU - Prati, E

AU - Fanciulli, M

PY - 2005

Y1 - 2005

N2 - With a view to using microwaves to excite the single-spin resonance of an electron trapped in a defect at the Si∕SiO2Si∕SiO2 interface of a metal-oxide-semiconductor field-effect transistor(MOSFET), we report on the experimental evidence for a stationary current in such devices operated under microwave radiation. The stationary current is examined as a function of the microwave power and of the operating voltage of the MOSFET. The transistor behavior is reproduced by a model exploiting the nonlinearity of the MOSFET channel resistance as a component of the circuit coupled with the electromagnetic field. We conclude that, in operating a MOSFET under microwaves, one has to pay attention to the generation of spurious stationary currents that may alter the likelihood to observe spin-dependent phenomena in the random telegraph signal observed in a MOSFET.

AB - With a view to using microwaves to excite the single-spin resonance of an electron trapped in a defect at the Si∕SiO2Si∕SiO2 interface of a metal-oxide-semiconductor field-effect transistor(MOSFET), we report on the experimental evidence for a stationary current in such devices operated under microwave radiation. The stationary current is examined as a function of the microwave power and of the operating voltage of the MOSFET. The transistor behavior is reproduced by a model exploiting the nonlinearity of the MOSFET channel resistance as a component of the circuit coupled with the electromagnetic field. We conclude that, in operating a MOSFET under microwaves, one has to pay attention to the generation of spurious stationary currents that may alter the likelihood to observe spin-dependent phenomena in the random telegraph signal observed in a MOSFET.

M3 - Article

SN - 0021-8979

VL - 98

SP - 044505

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 4

ER -

Dc modulation in field-effect transistors operating under microwave irradiation for quantum readout

Abstract

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