Electron effective masses in 4H SiC

Són, Nguyên Tiên; Chen, Weimin; Kordina, Olof; Konstantinov, A. O.; Ḿonemar, B.; Janzén, Erik; Hofman, D.; Volm, D.; Drechsler, Martín; Meyer, B. K.

doi:10.1063/1.113576

Cited by 115 publications

(40 citation statements)

References 5 publications

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“…9, and (b) these results almost perfectly reproduce those of Ref. 40. The significance of these points stems from the fact that they clearly indicate that corrections expected from the application of the BZW procedure are negligible for metallic Ru0 2 * unlike in the case of semiconductors.…”

Section: Electronic Properties and Optical Transitions Of Diamondsupporting

confidence: 77%

“…Consequently, our calculated total density of states (DOS) in Fig. 10 are the same as those of Glassford and Chelikowsky 40 -in qualitative and quantitative terms. These authors did not provide the partial density of states (PDOS) we show in Fig.…”

Section: Electronic Properties and Optical Transitions Of Diamondsupporting

confidence: 58%

“…We ascribe the difference between previous LDA results and experiments to the effect circumvented by the BZW procedure as noted above. 9.27 9.4 [42] 0.42 [40] 0.33 ± 0.01 [46] 0.29 [40] 0.58 ±0.01 [46] 0.31 ± 0.01 [46] The effective mass is a measure of the curvature of the calculated bands. The agreement between calculated and measured effective masses indicates an accurate determination of the shape of the bands.…”

Section: Electronic Structure and Total Energy Of3c-sicmentioning

confidence: 99%

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Science, Engineering, and Mathematics (SEM) at the Timbuktu Academy

Bagayoko¹,

Kelley²

2005

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We study conjugacy of formal derivations on fields of generalised power series in characteristic 0. Casting the problem of Poincaré resonance in terms of asymptotic differential algebra, we give conditions for conjugacy of parabolic flat log-exp transseries, flat grid-based transseries, logarithmic transseries, power series with exponents and coefficients in an ordered field, and formal Puiseux series.0 ) for all h 2 S with v(h) > 0. Then the derivations f @ and g @ are conjugate over Aut(S), i.e. there is a = exp(h @) 2 Aut(S) such that (g @) inv = f @.

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Section: Electronic Properties and Optical Transitions Of Diamondsupporting

confidence: 77%

Section: Electronic Properties and Optical Transitions Of Diamondsupporting

confidence: 58%

Section: Electronic Structure and Total Energy Of3c-sicmentioning

confidence: 99%

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Science, Engineering, and Mathematics (SEM) at the Timbuktu Academy

Bagayoko¹,

Kelley²

2005

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“…Son et al 5 also reported an ODCR signal using a higher microwave frequency in the Q-band (ν = 35 GHz). With the correspondingly higher ωτ = 9.1 value, our calculations predict that the mass anisotropy in the c-plane should be clearly resolved for 4H, as can be seen in Fig.…”

mentioning

confidence: 98%

“…Rather conflicting results have been reported on the effective masses as determined by a fitting of IR absorption spectra of the excited shallow donor states 3,4 and by optically detected cyclotron resonance (ODCR). 5,6 In this letter, calculated band structures of 6H SiC and 4H SiC are used to determine the effective mass tensors at the conduction-band minimum. Our results are in good agreement with the ODCR results on the anisotropies with respect to the c-axis for 6H and 4H SiC masses and hence support a mass-anisotropy as the cause for the mobility anisotropies.…”

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confidence: 99%

Band-structure analysis of the conduction-band mass anisotropy in 6Hand 4HSiC

Lambrecht

Segall

1995

Phys. Rev. B

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The band structures of 6H SiC and 4H SiC calculated by means of the full-potential linear-muffin-tin orbital method are used to determine the effective mass tensors for their conduction-band minima. The results are shown to be consistent with recent optically detected cyclotron resonance measurements which find the ratio of cyclotron masses for B ⊥ c to B c to be larger (smaller) than unity for the 6H (4H) polytype. However, contrary to previous suggestions, appreciable anisotropies in the c-plane are found. For 6H SiC, a strong dependencies on band-filling is predicted because of the occurence of a double well minimum along the ML-axis. The calculated mass tensors for 3C and 2H are also reported. The technological potential of SiC for high-temperature, high-power and high-frequency electronic devices as well as the intrinsic scientific interest of the polytypism of SiC have been recognized for several decades. Only recently, however, has it become possible to obtain electronic grade quality single crystal single polytype material. Recently, it was found that 4H SiC exhibits a much smaller (and opposite) anisotropy of the electron mobility with respect to the c-axis than does 6H SiC. 1,2 It has been unclear up to now whether this could be attributed to a corresponding anisotropy in the effective mass tensors. Rather conflicting results have been reported on the effective masses as determined by a fitting of IR absorption spectra of the excited shallow donor states 3,4 and by optically detected cyclotron resonance (ODCR). 5,6 In this letter, calculated band structures of 6H SiC and 4H SiC are used to determine the effective mass tensors at the conduction-band minimum. Our results are in good agreement with the ODCR results on the anisotropies with respect to the c-axis for 6H and 4H SiC masses and hence support a mass-anisotropy as the cause for the mobility anisotropies. Our calculations also predict appreciable anisotropies of the mass tensors in the c-plane. In addition, they predict a strong dependency of the masses on band-filling in the case of 6H SiC due to a doublewell-like conduction-band minimum.Our band-structure calculations were performed within the density functional theory in the local density approximation (LDA) 7 using the full-potential (FP) linear muffin-tin orbital method. 8,9 They differ in some small, but for the present purpose relevant details, from our earlier results 10 which used the atomic sphere approximation (ASA). 11 The previous calculations were already found to provide a satisfactory account of the UVreflectivity spectra. 12 In the present work, we performed calculations on a fine mesh of k-points in order to examine the details of the energy-band surfaces close to the conduction-band minima.In 6H SiC, the minimum is found about halfway between M and L along the M L ≡ U -axis of the 6H-Brillouin zone. 13 This leads to a 6-valley model in which the valleys occur in 3 pairs with each pair being separated by a small barrier (of 9.5 meV) at the three equivalent M points. The lowest b...

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