T = 300 K. (Philipp and Taft [1960]).
(Chelikowsky and Cohen [1976]).
(Macfarlane et al. [1959]).
T = 300 K. (Woltson and Subashiev [1967]).
| Index of refraction | 3.42 |
| Radiative recombination coefficient | 1.1·10-14 cm3/s |
| for 77K < T < 400 K | n = 3.38(1 + 3.9·10-5·T) |
| for T = 300 K | n = 3. 42 |
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Refractive index n versus photon energy. T = 300 K. (Philipp and Taft [1960]). |
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Experimental (dashed line) and theoretical (solid line) values of reflectance versus photon energy for Si. (Chelikowsky and Cohen [1976]). |
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Low-level absorption spectrum of high purity Si at various temperatures. (Macfarlane et al. [1959]). |
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Intrinsic absorption edge at different doping levels. T = 300 K. (Woltson and Subashiev [1967]). |
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Intrinsic absorption edge at different doping levels. T = 300 K. (Woltson and Subashiev [1967]). |
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The absorption coefficient versus photon energy at different temperatures. 1. and 2. - (Sze [1981]); 3. - (Jellison and Modine [1982]). |
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Free carrier absorption versus wavelength at different doping levels (n-Si). 300 K. Conduction electron concentrations are: 1. 1.4·1016 cm-3, 2. 8·1016 cm-3, 3. 1.7·1017 cm-3, 4. 3.2·1017 cm-3, 5. 6.1·1018 cm-3, 6. 1·1019 cm-3. (Spitzer and Fan [1957]). |
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Free carrier absorption versus wavelength at different doping levels (p-Si). 300 K. Hole concentrations are 1. 4.6·1017 cm-3; 2. 1.4·1018 cm-3; 3. 2.5·1018 cm-3; 4. 1.68·1019cm-3. (Hara and Nishi [1996]). |
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Free carrier absorption versus wavelength for high purity Si at different temperatures. Temperatures are 1. 300 K; 2. 473 K; 3. 573 K; 4. 623 K; 5. 673 K. (Runyan [1966]). |
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Free carrier absorption versus wavelength for high purity Si at different temperatures. Temperatures are 1. 300 K; 2. 473 K; 3. 573 K; 4. 623 K; 5. 673 K. (Runyan [1966]). |
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