RBS/channeling analysis of hydrogen-implanted single crystals of FZ silicon and 6H silicon
Single crystals of FZ silicon <111> and 6H silicon carbide <0001> were implanted with hydrogen ions (50 and 80 keV, respectively) to fluences from 2 x 10/sup 16/ H/sup +//cm/sup 2/ to 2 x 10/sup 18/ H+/cm/sup 2/. The implantations were carried out at three temperatures: approx.95K, 300 K, and approx.800 K. Swelling of the samples was measured by surface profilometry. RBS/channeling was used to obtain the damage profiles and to determine the amount of hydrogen retained in the lattice. The damage profiles are centered around X/sub m/ for the implants into silicon and around R/sub p/ for silicon carbide. For silicon carbide implanted at 95 K and 300 K and for silicon implanted at 95 K, the peak damage region is amorphous for fluences above 8 x 10/sup 16/ H/sup +//cm/sup 2/, 4 x 10/sup 17/ H/sup +//cm/sup 2/, and 2 x 10/sup 17/ H/sup +//cm/sup 2/, respectively. Silicon implanted at 300 and 800 K and silicon carbide implanted at 800 K remain crystalline up to fluences of 1 x 10/sup 18/ H/sup +//cm/sup 2/. The channeling damage results agree with previously reported TEM and electron diffraction data. The predictions of a simple disorder-accumulation model with a linear annealing term explains qualitatively the observed damage profiles in silicon carbide. Quantitatively, however, the model predicts faster development of the damage profiles than is observed at low fluences in both silicon and silicon carbide. For samples implanted at 300 and 800 K, the model also predicts substantially less peak disorder than is observed. The effect of the surface, the retained hydrogen, the shape of S/sub D/(X), and the need for a nonlinear annealing term may be responsible for the discrepancy.
- Research Organization:
- Pittsburgh Univ., PA (USA)
- OSTI ID:
- 5105374
- Resource Relation:
- Other Information: Thesis (Ph. D.)
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
SILICON
ION IMPLANTATION
SILICON CARBIDES
HIGH TEMPERATURE
HYDROGEN IONS 1 PLUS
ION CHANNELING
KEV RANGE 10-100
LOW TEMPERATURE
MEDIUM TEMPERATURE
PHYSICAL RADIATION EFFECTS
CARBIDES
CARBON COMPOUNDS
CATIONS
CHANNELING
CHARGED PARTICLES
ELEMENTS
ENERGY RANGE
HYDROGEN IONS
IONS
KEV RANGE
RADIATION EFFECTS
SEMIMETALS
SILICON COMPOUNDS
360605* - Materials- Radiation Effects