Abstract
The ever-increasing demand for high data storage capacity has spurred research on development of innovative technologies and new storage materials. Conventional GByte optical discs (DVDs and Bluray) can be transformed into ultrahigh capacity storage media by encoding multi-level and multiplexed information within the three dimensional volume of a recording medium. However, in most cases the recording medium had to be photosensitive requiring doping with photochromic molecules or nanoparticles in a multilayer stack or in the bulk material. Here, we show high-density data storage in commonly available plastics without any special material preparation. A pulsed laser was used to record data in micron-sized modified regions. Upon excitation by the read laser, each modified region emits fluorescence whose intensity represents 32 grey levels corresponding to 5 bits. We demonstrate up to 20 layers of embedded data. Adjusting the read laser power and detector sensitivity storage capacities up to 0.2 TBytes can be achieved in a standard 120 mm disc.
Highlights
In conventional optical discs data storage is mostly confined to the surface of polycarbonate (PC)
Our technique eliminates the need for the recording medium to be photosensitive and the multiple steps involved in their preparation
Pristine PMMA does not fluoresce in the visible spectrum
Summary
In conventional optical discs data storage is mostly confined to the surface of polycarbonate (PC). Disc capacity is determined by the bit density and depends on the wavelength of light and the numerical aperture (NA) of focusing optics used to record/read the data. Development of laser sources at shorter wavelengths and high NA optics resulted in smaller bit sizes and improved disc capacities. This planar technology cannot be scaled up due to the response and design of materials below 400 nm[1]. Data can alternatively be retrieved by fluorescence emission from the recorded bits This has the added benefit of integrating the existing read technology. Holography is an alternative technology capable of high-density data storage but it requires photosensitive recording medium[13,14,15]. Our technique eliminates the need for the recording medium to be photosensitive and the multiple steps involved in their preparation
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