In this paper, a novel and efficient approach to digital optical data storage using rare-earth ion doped inorganic insulators is demonstrated. More specifically, the nanocrystalline alkaline earth halide BaFCl:Sm is shown to hold great potential for multilevel optical data storage. Proof-of-concept demonstrations show that these phosphors could be used for rewritable, multilevel optical data storage down to the physical dimensions of a single nanocrystal. Multilevel information storage is based on the highly-efficient and reversible conversion of Sm3+ to Sm2+ ions upon exposure to UV-C light. The stored information is efficiently read-out by employing the photoluminescence of the Sm 2+ ions in the nanocrystals, with the signal strength bein...
The possibility of increase of the information storage time in optical memory devices based on the l...
The growing amount of data that is generated every year creates an urgent need for new and improved ...
The advance of nanophotonics has provided a variety of avenues for light-matter interaction at the n...
We present results demonstrating the prospects of samarium-doped nanocrystals for use in ultra-high ...
The focus of this research is the development of a suitable optical material for multilevel optical ...
We report on the highly efficient generation of stable Sm2+ in nanocrystalline BaFCl:Sm3+ by exposur...
We demonstrate that exposure of nanocrystalline BaFCl:Sm3+ X-ray storage phosphor to blue laser puls...
We present results demonstrating the prospects of samarium-doped nanocrystals for use in ultra-high ...
AbstractNanocrystalline BaFCl: Sm3+ is an efficient photoluminescent X-ray storage phosphor which is...
Nanocrystalline BaFCl:Sm3+, as prepared by coprecipitation from aqueous solutions, is an efficient p...
In recent decades, storage phosphors have found widespread applications in the fields of dosimetry a...
The mechanochemical preparation of nanocrystalline BaFCl:Smby ball milling BaClor BaCl2H, BaFand SmF...
In this paper, we discuss the spectral encoding capability of semiconductor nanocrystals (NCs) and i...
Conventional flash memory devices are voltage driven and found to be unsafe for confidential data st...
Optical data storage is an important and critical part of optical information technology in which ca...
The possibility of increase of the information storage time in optical memory devices based on the l...
The growing amount of data that is generated every year creates an urgent need for new and improved ...
The advance of nanophotonics has provided a variety of avenues for light-matter interaction at the n...
We present results demonstrating the prospects of samarium-doped nanocrystals for use in ultra-high ...
The focus of this research is the development of a suitable optical material for multilevel optical ...
We report on the highly efficient generation of stable Sm2+ in nanocrystalline BaFCl:Sm3+ by exposur...
We demonstrate that exposure of nanocrystalline BaFCl:Sm3+ X-ray storage phosphor to blue laser puls...
We present results demonstrating the prospects of samarium-doped nanocrystals for use in ultra-high ...
AbstractNanocrystalline BaFCl: Sm3+ is an efficient photoluminescent X-ray storage phosphor which is...
Nanocrystalline BaFCl:Sm3+, as prepared by coprecipitation from aqueous solutions, is an efficient p...
In recent decades, storage phosphors have found widespread applications in the fields of dosimetry a...
The mechanochemical preparation of nanocrystalline BaFCl:Smby ball milling BaClor BaCl2H, BaFand SmF...
In this paper, we discuss the spectral encoding capability of semiconductor nanocrystals (NCs) and i...
Conventional flash memory devices are voltage driven and found to be unsafe for confidential data st...
Optical data storage is an important and critical part of optical information technology in which ca...
The possibility of increase of the information storage time in optical memory devices based on the l...
The growing amount of data that is generated every year creates an urgent need for new and improved ...
The advance of nanophotonics has provided a variety of avenues for light-matter interaction at the n...