“…There is strong covalent bonding within the layers, but between them the interaction is weak, caused by van der Waals forces, 16 and this fact introduces a high anisotropy in the optical and electrical properties of GaSe. Different methods can be used to produce Ga-Se alloys in bulk, powder or thin films forms, such as chemical vapour deposition, 6 molecular beam epitaxy, 17 melt-quenching (MQ), 13,14,[18][19][20][21] Bridgman method, [22][23][24][25] vacuum evaporation, 13,14,26 and mechanical alloying (MA). 15,27,28 Many experimental techniques were used to investigate optical (transmittance, reflectance and absorption spectroscopies, [13][14][15]23,26 ellipsometry 25 ), vibrational (Raman spectroscopy 15,27,29 ), electrical (conductivity 26 ), thermal, 15,[18][19][20][21]27,28 and photothermal 28 properties of Ga-Se alloys.…”