Per‐Erik Hellström scite author profile

Per‐Erik Hellström

5Publications

110Citation Statements Received

37Citation Statements Given

How they've been cited

148

107

How they cite others

Affiliations

KTH Royal Institute of Technology, Kista Photonics Research Center, Tekniska Högskolans Studentkår

Publications

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Performance Fluctuation of FinFETs With Schottky Barrier Source/Drain

Zhang

Qiu

et al. 2008

IEEE Electron Device Lett.

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A considerable performance fluctuation of FinFETs featuring PtSi-based Schottky barrier source/drain is found. The Fin-channels measure 27-nm tall and 35-nm wide. Investigation of similarly processed transistors of broad gate-widths reveals a large variation in the position of the PtSi/Si interface with reference to the gate edge along the gate width. This variation suggests an uneven underlap between the PtSi and the gate from device to device for the FinFETs, since essentially only one silicide grain would be in contact with each Fin-channel at the PtSi/Si interface. The size of the underlap is expected to sensitively affect the performance of the FinFETs. Index Terms-FinFETs, gate underlap, MOSFETs, platinum silicide PtSi, Schottky barrier source/drain (SB-S/D), transmission electron microscopy (TEM).

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Low-frequency noise and Coulomb scattering in Si0.8Ge0.2 surface channel pMOSFETs with ALD Al2O3 gate dielectrics

Haartman

Westlinder

et al. 2005

Solid-State Electronics

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Sidewall transfer lithography for reliable fabrication of nanowires and deca-nanometer MOSFETs

2008

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A robust spacer gate process for deca-nanometer high-frequency MOSFETs

Hållstedt

Hellström

Zhang

et al. 2006

Microelectronic Engineering

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Characterization of transfer-bonded silicon bolometer arrays

Niklaus

Pejnefors²,

Dainese

et al. 2004

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In this paper we present the design, fabrication and characterization of arrays of boron doped polycrystalline silicon bolometers. The bolometer arrays have been fabricated using CMOS compatible wafer-level transfer bonding. The transfer bonding technique allows the bolometer materials to be deposited and optimized on a separate substrate and then, in a subsequent integration step to be transferred to the read-out integrated circuit (ROIC) wafer. Transfer bonding allows thermal infrared detectors with crystalline and/or high temperature deposited, high performance temperature sensing materials to be integrated on CMOS based ROICs. Uncooled infrared bolometer arrays with 18x18 pixels and with 320x240 pixels have been fabricated on silicon substrates. Individual pixels of the arrays can be addressed for characterization purposes. The resistance of the bolometers has been measured to be in the 50 kW range and the temperature coefficient of resistance (TCR) of the bolometer has been measured to be -0.52 %/K. The pixel structure is designed as a resonant absorbing cavity, with expected absorbance above 90%, in the wavelength interval of 8 to 12 mm. The measured results are in good agreement with the predicted absorbance values.

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