eng Oriental Scientific Publishing Company Material Science Research India 0973-3469 2022-08-28 19 2 77 83 19906 article M.Kh. Alquran 1 Department of Applied Science, Ajloun University College, Al-Balqa Applied University Jordan. This work aims to assess the enhancement of optical properties for porous GaN nanostructures, which fabricated by Photoelectrochemical etching under different current densities. The changing of optical properties for different samples were investigated by Photoluminescence (PL) spectroscopy. A strong near band-gap-edge emission (NBE) was detected with peak energy 3.40 eV for as-grown and sample etched at 5mA/cm2, while its 3.41 and 3.42 eV for samples etched with 10 and 20mA/cm2 respectively. Also, another peak emission from the sapphire substrate at peak 1.7 eV was observed. The PL peak intensity of the porous samples have increased with increasing the porosity, while the FWHM of the near-band-edge peak was decreased in 5 and 10mA/cm2 samples compared to as-grown non-etched sample, indicated that the pore size decreased with etching current density and porosity. Finally, the change of refractive with porosity was investigated in the porous GaN nanostructure. https://www.materialsciencejournal.org/vol19no2/assessment-of-the-enhancement-for-the-excitation-emission-in-porous-gan-using-photoluminescence/ Excitation Emission Photoelectrochemical etching Porous GaN Photoluminescence Porosity Refractive index