Optical constants of VO2 (Vanadium dioxide)
Oguntoye et al. 2023: n,k 0.21–2.5 µm; 50 °C
Complex refractive index (n+ik)
Derived optical constants
Conditions & Spec sheet
n_is_absolute: true wavelength_is_vacuum: true temperature: 50 °C film_thickness: 209e-9 substrate: SiO2
~209 nm-thick VO2 film on SiO2 substrate. 50 °C.
I. O. Oguntoye, S. Padmanabha, M. Hinkle, T. Koutsougeras, A. J. Ollanik, M. D. Escarra. Continuously tunable optical modulation using vanadium dioxide Huygens metasurfaces, ACS Appl. Mater. Interfaces 15, 41141–41150 (2023) (Numerical data kindly provided by Isaac Oguntoye)
Vanadium dioxide, VO2Vanadium dioxide (VO2) is a unique compound with a characteristic metal-insulator transition. At temperatures below 67°C, VO2 acts as an insulator but rapidly becomes a conductor when heated above this threshold. This swift phase transition is accompanied by a structural change from a monoclinic to a tetragonal lattice. Because of this distinctive property, VO2 has garnered significant attention for potential applications in electronics, particularly as a switch or in thermochromic devices. For example, its use in smart windows allows for the regulation of infrared radiation, enabling energy savings by blocking heat during summer or retaining it during winter. Furthermore, researchers have been exploring its potential in high-frequency electronics and optoelectronic devices.
- Divanadium tetroxide
- Vanadium(IV) oxide