@inproceedings{anderson2022cloud-scale,
author = {Anderson, Patrick and Aranas, Erika B. and Armas, Jorge Rodriguez and Arslan, Ben and Assaf, Youssef and Behrendt, Raphael and Black, Richard and Bucciarelli, Stefano and Caballero, Marco and Cabara, Yoseline and Cameron, Pashmina and Chatzieleftheriou, Andromachi and Clarke, Rebekah and Clegg, James and Cletheroe, Daniel and Deegan, Tim and Gomez Diaz, Ariel and Donnelly, Austin and Drevinskas, Rokas and Gaunt, Alexander and Gkantsidis, Christos and Gupta, Gaurav and Haller, Istvan and Ilieva, Teodora and Joyce, Russell and Kunkel, William and Lara, David and Legtchenko, Sergey and Liu, Fanglin and Magalhaes, Bruno and Marzoev, Alana and Mohan, Jayashree and Nguyen, Truong and Nowozin, Sebastian and O'Connell, Daniel and Ogus, Aaron and Overweg, Hiske and Picardi, Michela Florinda and Rowstron, Ant and Sakakura, Masaaki and Scholtz, Peter and Schreiner, Nina and Silberboim, Omer and Skrebels, Mark and Smith, Adam and Stefanovici, Ioan and Sweeney, David and Verkes, Govert and Wainman, Phil and Westcott,, Jonathan and Weston, Luke and Whittaker, Charles and Wilke-Berenguer, Pablo and Williams, Hugh and Winkler, Thomas},
title = {Cloud-Scale Archival Storage Using Ultrafast Laser Nanostructuring},
booktitle = {Conference on Lasers and Electro-Optics},
year = {2022},
month = {May},
abstract = {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.},
publisher = {Optica Publishing Group},
url = {http://approjects.co.za/?big=en-us/research/publication/cloud-scale-archival-storage-using-ultrafast-laser-nanostructuring/},
pages = {AM3I. 1},
}