| 1 |
Temperature-dependent dispersion model of float zone crystalline silicon
Franta D, Dubroka A, Wang CN, Giglia A, Vohanka J, Franta P, Ohlidal I
Applied Surface Science, 421, 405, 2017 |
| 2 |
Universal dispersion model for characterization of optical thin films over wide spectral range: Application to magnesium fluoride
Franta D, Necas D, Giglia A, Franta P, Ohlidal I
Applied Surface Science, 421, 424, 2017 |
| 3 |
Dispersion models describing interband electronic transitions combining Tauc's law and Lorentz model
Franta D, Cermak M, Vohanka J, Ohlidal I
Thin Solid Films, 631, 12, 2017 |
| 4 |
Utilization of the sum rule for construction of advanced dispersion model of crystalline silicon containing interstitial oxygen
Franta D, Necas D, Zajickova L, Ohlidal I
Thin Solid Films, 571, 490, 2014 |
| 5 |
Broadening of dielectric response and sum rule conservation
Franta D, Necas D, Zajickova L, Ohlidal I
Thin Solid Films, 571, 496, 2014 |
| 6 |
Application of Thomas-Reiche-Kuhn sum rule to construction of advanced dispersion models
Franta D, Necas D, Zajickova L
Thin Solid Films, 534, 432, 2013 |
| 7 |
Application of sum rule to the dispersion model of hydrogenated amorphous silicon
Franta D, Necas D, Zajickova L, Ohlidal I, Stuchlik J, Chvostova D
Thin Solid Films, 539, 233, 2013 |
| 8 |
Advanced modeling for optical characterization of amorphous hydrogenated silicon films
Franta D, Necas D, Zajickova L, Ohlidal I, Stuchlik J
Thin Solid Films, 541, 12, 2013 |
| 9 |
Elementary excitations, electronic correlation functions and sum rule in noble-metal chalcogenides
Kobayashi M
Solid State Ionics, 180(6-8), 451, 2009 |
| 10 |
Vibrational analysis of lithium nickel vanadate
Bhuvaneswari MS, Selvasekarapandian S, Kamishima O, Kawamura J, Hattori T
Journal of Power Sources, 139(1-2), 279, 2005 |
