Multi-stack optical storage mediu

1 . An optical storage medium, which has the DVD format, comprising an entrance face; below the entrance face, a higher recording stack comprising a higher recording layer, the higher recording layer comprising an organic dye material and having a thickness greater than 28 nm and less than 116 nm and a refractive index, below the higher recording stack, at least a lower recording stack, the lower recording stack being recorded or read back by a radiation beam entering the optical storage medium through the entrance face with a wavelength, focused on the lower recording stack and transmitted through the higher recording stack, a recording of the higher recording layer causing a difference in optical thickness between recorded and unrecorded areas of the higher recording layer, which lies within the range of 0.03λ to 0.125λ, wherein λ is the wavelength of the radiation beam which is approximately equal to 655 nm. 2 . An optical storage medium according to claim 1 , wherein the higher recording stack comprises a metal reflector layer. 3 . An optical storage medium according to claim 1 , wherein the lower recording stack comprises a lower recording layer comprising an organic dye material and a metal reflector layer. 4 . An optical storage medium according to claim 2 , wherein the metal reflector layer has a thickness which is greater than 5 and less than 25 nm and is made of a silver alloy. 5 . An optical storage medium according to claim 1 , comprising below the entrance face a semi-transparent or transparent substrate having a thickness which is greater than 0.3 and less than 1.2 mm. 6 . A method of manufacturing an optical storage medium, which has the DVD format, comprising a higher recording layer and at least a lower recording layer, the lower recording layer being recorded or read back by means of a focused radiation beam with a wavelength (λ), the method of manufacturing comprising the steps of: Forming a pre-grooved semi-transparent or transparent substrate, Depositing an organic dye onto the pre-grooved substrate for forming the higher recording layer having a thickness being greater than 28 nm and less than 116 nm, such that a recording of the higher recording layer causes a difference in optical thickness between recorded and unrecorded areas of the higher recording layer, wherein the difference lies within the range of 0.03λ, to 0.125λ, and wherein the wavelength (λ) is approximately equal to 655 nm.