Cloud-Scale Archival Storage Using Ultrafast Laser Nanostructuring
- Patrick Anderson ,
- Erika B. Aranas ,
- Jorge Rodriguez Armas ,
- Ben Arslan ,
- Youssef Assaf ,
- Raphael Behrendt ,
- Richard Black ,
- Stefano Bucciarelli ,
- Marco Caballero ,
- Yoseline Cabara ,
- Pashmina Cameron ,
- Andromachi Chatzieleftheriou ,
- Rebekah Clarke ,
- James Clegg ,
- Daniel Cletheroe ,
- Tim Deegan ,
- Ariel Gomez Diaz ,
- Austin Donnelly ,
- Rokas Drevinskas ,
- Alexander Gaunt ,
- Christos Gkantsidis ,
- Gaurav Gupta ,
- Istvan Haller ,
- Teodora Ilieva ,
- Russell Joyce ,
- William Kunkel ,
- David Lara ,
- Sergey Legtchenko ,
- Fanglin Liu ,
- Bruno Magalhaes ,
- Alana Marzoev ,
- Jayashree Mohan ,
- Truong Nguyen ,
- Sebastian Nowozin ,
- Daniel O'Connell ,
- Aaron Ogus ,
- Hiske Overweg ,
- Michela Florinda Picardi ,
- Ant Rowstron ,
- Masaaki Sakakura ,
- Peter Scholtz ,
- Nina Schreiner ,
- Omer Silberboim ,
- Mark Skrebels ,
- Adam Smith ,
- Ioan Stefanovici ,
- David Sweeney ,
- Govert Verkes ,
- Phil Wainman ,
- Jonathan Westcott, ,
- Luke Weston ,
- Charles Whittaker ,
- Pablo Wilke-Berenguer ,
- Hugh Williams ,
- Thomas Winkler
Conference on Lasers and Electro-Optics |
Published by Optica Publishing Group
Recent progress in ultrafast laser nanostructuring enables high-density multidimensional volumetric data writing. With exceptional media longevity, this could transform archival cloud storage. We demonstrate peak volumetric densities above 250 MB/mm 3 of data write and read.