Microsoft researchers developed a method to store data in a 2-mm-thick glass plate using short laser pulses.
The technique creates 3D pixels in hundreds of layers within the glass.
A 120 mm x 120 mm plate can hold 4.8 TB of data.
The borosilicate glass is projected to be stable for 10 millennia.
Data is read using microscopes and machine-learning.
Detailed Insights:
This data storage method uses femtosecond lasers to create permanent, nanostructured gratings within the glass.
Each pixel, or voxel, can represent multiple bits of information, increasing storage density.
Borosilicate glass offers high thermal and chemical resistance, ensuring long-term data preservation.
The use of machine learning algorithms enhances the speed and accuracy of data retrieval from the glass.
This technology could provide a solution for archival storage, addressing the growing need for long-lasting data preservation.
Scientific/Technical Concepts Involved:
Femtosecond Lasers: Lasers that emit extremely short pulses of light, measured in femtoseconds (10^-15 seconds).
Voxel: A volumetric pixel, representing a value on a regular grid in three-dimensional space.
Borosilicate Glass: A type of glass with silica and boron trioxide as the main glass-forming constituents, known for its high resistance to thermal shock.