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Demonstration of 8-Gbit/in^2 areal storage density based on swept-carrier frequency-selective optical memory
105
Citations
20
References
1995
Year
Optical MaterialsEngineeringStorage PerformancePhase Change MemoryData StorageOptical PropertiesInformation StorageMultimedia StorageMemory DevicePhotonicsElectrical EngineeringAreal Storage DensityFlash MemoryOptical MemoryApplied PhysicsSemiconductor MemoryFull Material UtilizationOptoelectronicsIn-storage ComputingMultikilobit-long Data Streams
The study projects that full material utilization could yield storage densities around 100 Gbits/in². Using swept‑carrier frequency‑selective optical storage, the authors achieved an areal density of 8 Gbits/in² and a bandwidth product of 1.5 × 10¹⁷ bits/(in²·s), among the highest for nonparallelized 2‑D optical or magnetic systems.
Using swept-carrier frequency-selective optical data storage techniques to record multikilobit-long data streams at single spatial locations, we have achieved an areal storage density of 8 Gbits/in. (2) and a density-input/output bandwidth product of 1.5 x 10(17) bits/(in. (2) s). The latter quantity is among the highest demonstrated in the context of nonparallelized two-dimensional optical or magnetic recording systems. Extrapolation of the present results to full material utilization suggests an achievable storage density of the order of 100 Gbits/in.(2).
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