POLAT, Ö. Et Al. 2018. Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts. OPTIK , vol.158 , 204-210.

POLAT, Ö., YILDIZ, N., & AKKOYUN, S., (2018). Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts. OPTIK , vol.158, 204-210.

POLAT, ÖMER, NİHAT YILDIZ, And SERKAN AKKOYUN. "Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts," OPTIK , vol.158, 204-210, 2018

POLAT, ÖMER Et Al. "Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts." OPTIK , vol.158, pp.204-210, 2018

POLAT, Ö. YILDIZ, N. And AKKOYUN, S. (2018) . "Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts." OPTIK , vol.158, pp.204-210.

@article{article, author={ÖMER POLAT Et Al. }, title={Consistent neural network empirical physical formula constructions for nonlinear scattering intensities of dye-doped nematic liquid crystals with ultraviolet pump laser-driven Fredericksz threshold shifts}, journal={OPTIK}, year=2018, pages={204-210} }