High-speed laser writing method could pack 500 terabytes of data into CD-sized glass disc

High-speed laser writing method could pack 500 terabytes of data into CD-sized glass disc
Researchers developed a new fast and energy-efficient laser-writing method for producing nanostructures in silica glass. They used the method to record 6 GB data in a one-inch silica glass sample. The four squares pictured each measure just 8.8 X 8.8 mm. They also used the laser-writing method to write the university logo and mark on the glass. Credit: Yuhao Lei and Peter G. Kazansky, University of Southampton

Researchers have developed a fast and energy-efficient laser-writing method for producing high-density nanostructures in silica glass. These tiny structures can be used for long-term five-dimensional (5D) optical data storage that is more than 10,000 times denser than Blue-Ray optical disc storage technology.

"Individuals and organizations are generating ever-larger datasets, creating the desperate need for more efficient forms of with a high capacity, low energy consumption and long lifetime," said doctoral researcher Yuhao Lei from the University of Southampton in the UK. "While cloud-based systems are designed more for temporary data, we believe that 5D data in glass could be useful for longer-term data storage for national archives, museums, libraries or private organizations."

In Optica, Optica Publishing Group's journal, Lei and colleagues describe their new method for writing data that encompasses two optical dimensions plus three spatial dimensions. The new approach can write at speeds of 1,000,000 voxels per second, which is equivalent to recording about 230 kilobytes of data (more than 100 pages of text) per second.

"The physical mechanism we use is generic," said Lei. "Thus, we anticipate that this energy-efficient writing method could also be used for fast nanostructuring in transparent materials for applications in 3D integrated optics and microfluidics."

Faster, better laser writing

Although 5D in transparent materials has been demonstrated before, writing data fast enough and with a high enough density for real-world applications has proved challenging. To overcome this hurdle, the researchers used a with a high repetition rate to create tiny pits containing a single nanolamella-like structure measuring just 500 by 50 nanometers each.

Rather than using the femtosecond laser to write directly in the glass, the researchers harnessed the light to produce an optical phenomenon known as near-field enhancement, in which a nanolamella-like structure is created by a few weak light pulses, from an isotropic nanovoid generated by a single pulse microexplosion. Using near-field enhancement to make the nanostructures minimized the thermal damage that has been problematic for other approaches that use high-repetition-rate lasers.

Because the nanostructures are anisotropic, they produce birefringence that can be characterized by the light's slow axis orientation (4th dimension, corresponding to the orientation of the nanolamella-like structure) and strength of retardance (5th dimension, defined by the size of nanostructure). As data is recorded into the glass, the slow axis orientation and strength of retardance can be controlled by the polarization and intensity of light, respectively.

"This new approach improves the data writing speed to a practical level, so we can write tens of gigabytes of data in a reasonable time," said Lei. "The highly localized, precision nanostructures enable a higher data capacity because more voxels can be written in a unit volume. In addition, using pulsed light reduces the energy needed for writing."

Writing data on a glass CD

The researchers used their new method to write 5 gigabytes of text data onto a disc about the size of a conventional compact disc with nearly 100% readout accuracy. Each voxel contained four bits of information, and every two voxels corresponded to a text character. With the writing density available from the method, the disc would be able to hold 500 terabytes of data. With upgrades to the system that allow parallel writing, the researchers say it should be feasible to write this amount of data in about 60 days.

"With the current system, we have the ability to preserve terabytes of data, which could be used, for example, to preserve information from a person's DNA," said Peter G. Kazansky, leader of the researcher team.

The researchers are now working to increase the writing speed of their method and to make the technology usable outside the laboratory. Faster methods for reading the data will also have to be developed for practical data storage applications.


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More information: Yuhao Lei et al, High speed ultrafast laser anisotropic nanostructuring by energy deposition control via near-field enhancement, Optica (2021). DOI: 10.1364/OPTICA.433765
Journal information: Optica

Citation: High-speed laser writing method could pack 500 terabytes of data into CD-sized glass disc (2021, October 28) retrieved 2 November 2021 from https://phys.org/news/2021-10-high-speed-laser-method-terabytes-cd-sized.html
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