Title :
MBE growth of high quality metamorphic HEMT structures on GaAs
Author :
Lubyshev, D. ; Liu, W.K. ; Stewart, T. ; Cornfeld, A.B. ; Patton, J. ; Millunchick, J. Mirecki ; Hoke, W. ; Marsh, P.F. ; Meaton, C. ; Nichols, K. ; Svensson, S.P.
Author_Institution :
Quantum Epitaxial Designs Inc., Bethlehem, PA, USA
Abstract :
Metamorphic high electron mobility transistor (MHEMT) structures with In0.53Ga0.47As channels were grown by molecular beam epitaxy on GaAs substrates using As-, P-, and Sb-based buffer layers. Structural, electrical, and optical characterizations were used to correlate buffer layer design and growth parameters with channel carrier mobility, surface morphology, and photoluminescence efficiency. X-ray reciprocal maps indicate complete lattice relaxation of buffer layer. All MHEMTs studied in this work exhibited excellent transport properties comparable to HEMTs grown lattice-matched on InP. RMS roughness of <14 Å were achieved for both InAlGaAs and AlGaAsSb-based buffers. MHEMT devices with 0.15 μm gates were fabricated successfully on As-based M-buffers with transconductance of ~700 mS/mm, saturated drain current at zero gate bias of 200 mA/mm, and gate-drain breakdown voltage of 6.6 V
Keywords :
III-V semiconductors; carrier mobility; gallium arsenide; high electron mobility transistors; indium compounds; interface roughness; interface structure; molecular beam epitaxial growth; photoluminescence; semiconductor device breakdown; semiconductor device measurement; semiconductor growth; surface structure; 0.15 mum; 6.6 V; 700 mS/mm; AlGaAsSb; As-based M-buffers; As-based buffer layers; GaAs; In0.53Ga0.47As; In0.53Ga0.47As channels; InAlGaAs; MBE growth; P-based buffer layer; RMS roughness; Sb-based buffer layers; X-ray reciprocal map; buffer layer design; channel carrier mobility; electrical characterization; gate-drain breakdown voltage; high electron mobility transistor; high quality metamorphic HEMT structures; lattice relaxation; molecular beam epitaxy; optical characterization; photoluminescence efficiency; saturated drain current; structural characterization; surface morphology; transconductance; transport properties; zero gate bias; Buffer layers; Electron optics; Gallium arsenide; HEMTs; MODFETs; Molecular beam epitaxial growth; Optical buffering; Optical saturation; Substrates; mHEMTs;
Conference_Titel :
Indium Phosphide and Related Materials, 2000. Conference Proceedings. 2000 International Conference on
Conference_Location :
Williamsburg, VA
Print_ISBN :
0-7803-6320-5
DOI :
10.1109/ICIPRM.2000.850315
