Add to ORKGWe introduce M/# as a metric for characterizing holographic memory systems. M/# is the constant of proportionality between diffraction efficiency and the number of holograms squared. Although M/# is a function of many variables in a holographic recording system, it can be measured from the recording and erasure of a single hologram. We verify experimentally that the diffraction efficiency of multiple holograms follows the prediction of M/# measured from a single hologram
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We present experimental results of a page-formatted random-access holographic memory capable of stor...
We describe a holographic optical memory capable of storing up to 10^12 bits of information. The st...
We introduce M/# as a metric for characterizing holographic memory systems. M/# is the constant of p...
The dynamic range of holographic storage media is traditionally characterized in terms ofM/#. Howeve...
We investigate the diffraction efficiency of strong volume holograms in which the coupling parameter...
The storage density of shift-multiplexed holographic memory is calculated and compared with experime...
A new multiplexing schedule is derived for multiplexing holograms in photorefractive polymers which ...
We demonstrate the storage of 1000 holograms in a memory architecture that makes use of different wa...
The storage density of shift-multiplexed holographic memory is calculated and compared with experime...
We compare the system performances of two holographic recording geometries using iron-doped lithium ...
We define a measure for persistence in holographic recording. Using this measure and the known measu...
We compare the system performances of two holographic recording geometries using iron-doped lithium ...
We demonstrate a simple angle-multiplexing holographic storage system, using a single acousto-optic ...
The cross talk between wavelength-multiplexed holograms is analyzed. The signal-to-noise ratio (SNR)...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We present experimental results of a page-formatted random-access holographic memory capable of stor...
We describe a holographic optical memory capable of storing up to 10^12 bits of information. The st...
We introduce M/# as a metric for characterizing holographic memory systems. M/# is the constant of p...
The dynamic range of holographic storage media is traditionally characterized in terms ofM/#. Howeve...
We investigate the diffraction efficiency of strong volume holograms in which the coupling parameter...
The storage density of shift-multiplexed holographic memory is calculated and compared with experime...
A new multiplexing schedule is derived for multiplexing holograms in photorefractive polymers which ...
We demonstrate the storage of 1000 holograms in a memory architecture that makes use of different wa...
The storage density of shift-multiplexed holographic memory is calculated and compared with experime...
We compare the system performances of two holographic recording geometries using iron-doped lithium ...
We define a measure for persistence in holographic recording. Using this measure and the known measu...
We compare the system performances of two holographic recording geometries using iron-doped lithium ...
We demonstrate a simple angle-multiplexing holographic storage system, using a single acousto-optic ...
The cross talk between wavelength-multiplexed holograms is analyzed. The signal-to-noise ratio (SNR)...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We present experimental results of a page-formatted random-access holographic memory capable of stor...
We describe a holographic optical memory capable of storing up to 10^12 bits of information. The st...