R. En-nadir Et Al. , "Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts," Solid State Communications , vol.338, 2021
En-nadir, R. Et Al. 2021. Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts. Solid State Communications , vol.338 .
En-nadir, R., El Ghazi, H., Belaid, W., Jorio, A., Zorkani, I., & KILIÇ, H. Ş., (2021). Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts. Solid State Communications , vol.338.
En-nadir, Redouane Et Al. "Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts," Solid State Communications , vol.338, 2021
En-nadir, Redouane Et Al. "Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts." Solid State Communications , vol.338, 2021
En-nadir, R. Et Al. (2021) . "Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts." Solid State Communications , vol.338.
@article{article, author={Redouane En-nadir Et Al. }, title={Ground and first five low-lying excited states related optical absorption in In.1Ga.9N/GaN double quantum wells: Temperature and coupling impacts}, journal={Solid State Communications}, year=2021}