YILDIZ, N. Et Al. 2010. A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach. Physica B: Condensed Matter , vol.405, no.8 , 2049-2056.

YILDIZ, N., SAN, S. E., Okutan, M., & Kaya, H., (2010). A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach. Physica B: Condensed Matter , vol.405, no.8, 2049-2056.

YILDIZ, NİHAT Et Al. "A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach," Physica B: Condensed Matter , vol.405, no.8, 2049-2056, 2010

YILDIZ, NİHAT Et Al. "A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach." Physica B: Condensed Matter , vol.405, no.8, pp.2049-2056, 2010

YILDIZ, N. Et Al. (2010) . "A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach." Physica B: Condensed Matter , vol.405, no.8, pp.2049-2056.

@article{article, author={NİHAT YILDIZ Et Al. }, title={A novel method to produce nonlinear empirical physical formulas for experimental nonlinear electro-optical responses of doped nematic liquid crystals: Feedforward neural network approach}, journal={Physica B: Condensed Matter}, year=2010, pages={2049-2056} }