High-fTn-MODFETs fabricated on Si/SiGe heterostructures grown by UHV-CVD

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High-fTn-MODFETs fabricated on Si/SiGe heterostructures grown by UHV-CVD

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The authors present high-frequency results of n-channel MODFETs fabricated on high-mobility Si/SiGe strained layer heterostructures grown by ultrahigh vacuum chemical vapour deposition (UHV-CVD). Devices with gate length Lg = 0.2 µm and drain-source separation Lds = 0.9 µm displayed unity current gain cutoff frequencies as high as fT = 45 GHz (47 GHz) at Vds = +0.6 V (+1.5 V). Similar devices with Lg = 0.2 µm and Lds = 0.5 µm produced values of fT = 61 GHz (62 GHz) at Vds = +0.6 V (+1.0 V). The value fT = 62 GHz is the highest unity current gain cutoff frequency reported to date for an n-channel strained Si MODFET.

Inspec keywords: semiconductor materials; Ge-Si alloys; elemental semiconductors; silicon; high electron mobility transistors; semiconductor thin films; chemical vapour deposition; semiconductor growth

Other keywords: 0.6 to 1.5 V; 61 to 62 GHz; gate length; UHV-CVD; Si-SiGe; strained layer heterostructures; n-channel MODFETs; unity current gain cutoff frequencies; high-frequency results; drain-source separation; 45 to 47 GHz; 0.2 micron

Subjects: Chemical vapour deposition; Other field effect devices; Other semiconductor materials; Elemental semiconductors

References

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      • M. Glück , T. Hackbarth , U. König , A. Haas , G. Höck , E. Kohn . High fmax n-type Si/SiGe MODFETs. Electron. Lett. , 335 - 337
    2. 2)
      • K. Ismail . Si/SiGe high-speed field-effect transistors. IEDM Tech. Dig. , 509 - 512
    3. 3)
      • U. König , M. Glück , G. Höck . Si/SiGe field-effect transistors. J. Vac. Sci. Technol. B , 2609 - 2614
    4. 4)
      • P. Dollfus . Si/Si1–xGex heterostructures: Electron transportand field-effecttransistor operation using Monte Carlo simulation. J. Appl. Phys. , 3911 - 3916
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