Time domain data storage
First Claim
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1. A method of storing data comprising the steps of:
- providing a material having a populated ground state and an excited state, which exhibits inhomogeneous absorption linewidth broadening about an absorption transition, characterized by homogeneous absorption frequencies of homogeneous bandwidth within an inhomogeneous absorption bandwidth, and by a homogeneous and an inhomogeneous dephasing time, each of said dephasing times being about equal to the inverse of said homogeneous and said inhomogeneous bandwidth, respectively, and which material undergoes transitions from the ground state to the excited state upon exposure to electromagnetic radiation within the ultraviolet, visible or infrared region and having spectral components within said inhomogeneous absorption bandwidth;
exposing said material to an information-containing writing pulse comprising a modulated pulse of said electromagnetic radiation, consisting essentially of spectral components within said inhomogeneous absorption bandwidth;
exposing said material to a fixing pulse of said electromagnetic radiation consisting essentially of spectral components having uniform amplitude and phase throughout the spectrum of said writing pulse;
wherein said material is exposed to said writing pulse and said fixing pulse within a period of time less than or about the homogeneous dephasing time of said absorption transition within said material, and wherein the intensity of each said pulse is not greater than required to cause about one half of the ground state population of said material to make a transition from said ground state to said excited state of said material;
thereby resulting in the storage in said material of said writing pulse information.
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Abstract
A frequency selective optical data computer memory apparatus and method, which stores and accesses time modulated data in discrete spatial locations of an optically absorbing material providing a temporary, permanent and erasable, or permanent and nonerasable data storage.
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Citations
13 Claims
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1. A method of storing data comprising the steps of:
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providing a material having a populated ground state and an excited state, which exhibits inhomogeneous absorption linewidth broadening about an absorption transition, characterized by homogeneous absorption frequencies of homogeneous bandwidth within an inhomogeneous absorption bandwidth, and by a homogeneous and an inhomogeneous dephasing time, each of said dephasing times being about equal to the inverse of said homogeneous and said inhomogeneous bandwidth, respectively, and which material undergoes transitions from the ground state to the excited state upon exposure to electromagnetic radiation within the ultraviolet, visible or infrared region and having spectral components within said inhomogeneous absorption bandwidth; exposing said material to an information-containing writing pulse comprising a modulated pulse of said electromagnetic radiation, consisting essentially of spectral components within said inhomogeneous absorption bandwidth; exposing said material to a fixing pulse of said electromagnetic radiation consisting essentially of spectral components having uniform amplitude and phase throughout the spectrum of said writing pulse; wherein said material is exposed to said writing pulse and said fixing pulse within a period of time less than or about the homogeneous dephasing time of said absorption transition within said material, and wherein the intensity of each said pulse is not greater than required to cause about one half of the ground state population of said material to make a transition from said ground state to said excited state of said material;
thereby resulting in the storage in said material of said writing pulse information. - View Dependent Claims (8, 9)
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2. A method of storing data comprising the steps of:
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providing a material having a populated ground state and an excited state and exhibiting inhomogeneous absorption line broadening about a first absorption transition, f0, having an inhomogeneous bandwidth of Δ
f0I, and an inhomogeneous dephasing time about equal to 1/Δ
f0I =T*2, and a homogeneous dephasing time equal to about 1/Δ
f0H =T2, where Δ
f0H is the homogeneous absorption bandwidth within said inhomogeneous bandwidth, and about a correlative absorption transition, f1, having an inhomogeneous bandwidth of Δ
f1I, and which material upon exposure to electromagnetic radiation within the ultraviolet, visible or infrared region and of frequency f0 ±
Δ
f0I /2 or f1 ±
Δ
f1I /2, undergoes absorption transitions from said ground state to said excited state;exposing said material to a writing pulse of electromagnetic radiation of frequency about f0, and having a spectral width, Δ
fW, narrower than Δ
f0I, said writing pulse being amplitude or frequency modulated in an information-containing way;said writing pulse existing for a period of time greater than about the inhomogeneous dephasing time of said first absorption transition, T*2, and less than or about the homogeneous dephasing time of said first absorption transition, T2 ; exposing said material to a fixing pulse of electromagnetic radiation having uniform spectral components throughout the spectrum of said writing pulse and existing for a period of time equal to about 1/Δ
fW ;wherein said material is exposed to said pulses within a time interval less than or equal to about T2 ; wherein the intensity of each said pulse is not greater than required to cause about one half of the ground state population of said material to make a transition from said ground state to said excited state of said material; thereby resulting in the storage of the information contained in said writing pulse separately and independently in both said ground state and said excited state of said material. - View Dependent Claims (3, 4, 5, 6, 7)
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10. A data storage system comprising:
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a storage material which exhibits inhomogeneous absorption line broadening about frequency, f0, having an inhomogeneous bandwidth, Δ
fI, a homogeneous bandwidth of Δ
fH and a homogeneous dephasing time of 1/Δ
fH ;a means of generating a data input signal; a means for segmenting said data input signal into discrete information-containing signals; a laser means tuned to a frequency of about f0 having a bandwidth of Δ
fW less than Δ
fI ;a means for modulating said laser means according to said information-containing signals, thereby resulting in a writing pulse; a means for modulating said laser means to provide a fixing pulse of duration about 1/Δ
fw ;a first timing means for sequentially relating said writing pulse to said fixing pulse; a means for orienting the direction of propagation of said pulses through said material; and a second timing means providing for the sequential excitation of said material by said writing and fixing pulses within a discrete time interval of less than or about equal to the homogeneous dephasing time, 1/Δ
fH of said material.
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11. A data storage system comprising:
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a material exhibiting inhomogeneous absorption line broadening about frequencies f0, f1, f2 . . . fn and of corresponding inhomogeneous bandwidths Δ
f0I, Δ
f1I, Δ
f2I . . . Δ
fnI, homogeneous bandwidths Δ
f0H, Δ
f1H, Δ
f2H, Δ
fnH, within said respective inhomogeneous bandwidths, and homogeneous dephasing times, T2 (0), T2 (1), T2 (2) . . . T2 (n), about equal to the inverse of said respective homogeneous bandwidths and having the characteristic of undergoing electromagnetically induced transitions from the ground state of said material to an excited state of said material upon exposure to electromagnetic field pulses within the ultraviolet, visible or infrared regions and of frequencies about f0, f1, f2 . . . fn, respectively, of bandwidth Δ
f0, Δ
f1, Δ
f2 . . . fn, and of duration less than or about equal to the homogeneous dephasing time of T2 (0), T2 (1), T2 (2) . . . T2 (n), respectively, and which material is capable of producing a free induction decay emission subsequent to undergoing said transitions from the ground state to the excited state of said material;a means of generating a data input signal; a means for segmenting said data signal into discrete information-containing signals; laser means for producing a first beam of frequency about f0, and of bandwidth Δ
f0 less than said inhomogeneous bandwidth Δ
f0I, spanning a time interval of less than about T2 (0);means for modulating said first beam according to said discrete information-containing signals, thereby resulting in a writing pulse, which propagates in vector direction kw ; means for exposing said material to said writing pulse comprising controlling kw ; said laser means further comprising means for producing a fixing pulse of frequency about f0 and of duration of about 1/Δ
f0 and which propagates in vector direction kf ;means for exposing said material to said fixing pulse comprising controlling kf ; timing means for producing a time dependent relationship between said writing pulse and said fixing pulse resulting in the time interval in which said material is exposed to one said writing pulse and one said fixing pulse being less than or about equal to T2 (0); said laser means further comprising means for producing a reading pulse, which propagates in vector direction kr, of frequency f0 or at a correlative absorption frequency about f1, about f2 . . . or about fn, providing uniform spectral excitation of information stored by said writing and fixing pulses thereby inducing said material to emit a free-induction decay signal which propagates in vector direction kd ; means for exposing said material to said reading pulse comprising controlling kr ; means for detecting and receiving said free-induction decay signal. - View Dependent Claims (12, 13)
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Specification