Thousands of microcantilevers for highly parallel and ultra-dense data storage

Thousands of microcantilevers for highly parallel and ultra-dense data storage

Ultrahigh storage densities of up to 1 Tb/in./sup 2/ or more can be achieved by using local-probe techniques to write, read back, and erase data in very thin polymer films. The thermomechanical scanning-probe-based data-storage concept, internally dubbed "millipede", combines ultrahigh den...

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Hauptverfasser: Vettiger, P., Albrecht, T., Despont, M., Drechsler, U., Durig, U., Gotsmann, B., Jubin, D., Haberle, W., Lantz, M.A., Rothuizen, H., Stutz, R., Wiesmann, D., Binnig, G.K., Bachtold, P., Cherubini, G., Hagleitner, C., Loeliger, T., Pantazi, A., Pozidis, H., Eleftheriou, E.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Amorphous magnetic materials
Atomic force microscopy
Image storage
Laboratories
Magnetic confinement
Magnetic memory
Material storage
Polymer films
Probes
Random access memory
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Zusammenfassung:Ultrahigh storage densities of up to 1 Tb/in./sup 2/ or more can be achieved by using local-probe techniques to write, read back, and erase data in very thin polymer films. The thermomechanical scanning-probe-based data-storage concept, internally dubbed "millipede", combines ultrahigh density, small form factor, and high data rates. High data rates are achieved by parallel operation of large 2D arrays with thousands micro/nanomechanical cantilevers/tips that can be batch-fabricated by silicon surface-micromachining techniques. The inherent parallelism, the ultrahigh areal densities and the small form factor may open up new perspectives and opportunities for application in areas beyond those envisaged today.
DOI:10.1109/IEDM.2003.1269392