Authentication systems, authentication devices, and methods for authenticating a value article

What is claimed is: 1 . A method for authenticating a value article, wherein the method comprises the steps of: providing the value article comprising a luminescent material; providing an exciting light source, an optical filter, a photodetector, a signal manipulation circuit, and an amplifier; exposing the luminescent material of the value article to light produced by the exciting light source; filtering radiation comprising light from the exciting light source and emitted radiation from the luminescent material using the optical filter to produce filtered radiation comprising emitted radiation from the luminescent material; detecting the filtered radiation using the photodetector to produce a detected radiation signal; electronically manipulating the detected radiation signal using the signal manipulation circuit to reduce an effect of light from the exciting light source on an authentication determination based on the detected radiation signal; amplifying the detected radiation signal with the amplifier after the detected radiation signal is electronically manipulated to produce an amplified electronic signal; and converting the amplified electronic signal or data derived therefrom to an authentication output. 2 . The method of claim 1 , wherein the photodetector is positioned to receive light from the exciting light source reflected from the value article, and wherein detecting the filtered radiation further comprises detecting the filtered radiation comprising light from the exciting light source reflected from the value article. 3 . The method of claim 1 , wherein the signal manipulation circuit is an electronic frequency filter, wherein the luminescent material is exposed to modulated light produced by the exciting light source at a predetermined modulation frequency, and wherein electronically manipulating the detected radiation signal comprises selectively attenuating portions of the detected radiation signal at the predetermined modulation frequency of the exciting light source with respect to desired portions of the detected radiation signal using the electronic frequency filter to produce a filtered electronic signal. 4 . The method of claim 3 , wherein emitted radiation from the luminescent material has an emission component in the same wavelength band as the modulated light produced by the exciting light source, and wherein selectively attenuating portions of the detected radiation signal comprises selectively attenuating portions of the detected radiation signal produced by the modulated light with the filtered electronic signal including a portion produced by the emitted radiation having the same wavelength band as the modulated light. 5 . The method of claim 3 , wherein the luminescent material exhibits a frequency response during emission of radiation therefrom, wherein the frequency response of the luminescent material includes the predetermined modulation frequency, and wherein selectively attenuating portions of the detected radiation signal at the predetermined modulation frequency comprises selectively attenuating portions of the detected radiation signal produced by the luminescent material at the predetermined modulation frequency. 6 . The method of claim 1 , wherein the signal manipulation circuit is a squelch circuit, and wherein electronically manipulating the detected radiation signal comprises electronically blocking the detected radiation signal with the squelch circuit until production of light from the exciting light source is ceased. 7 . The method of claim 6 , wherein exposing the luminescent material of the value article to light produced by the exciting light source comprises pulsing the light produced by the exciting light source, and wherein electronically manipulating the detected radiation signal comprises electronically blocking the detected radiation signal only during production of light from the exciting light source. 8 . The method of claim 7 , further comprising measuring voltage of the amplified electronic signal at a substantially equal time interval after each pulse of light is ceased. 9 . The method of claim 1 , wherein providing the value article comprises providing a value article chosen from an identification card, a driver's license, a passport, identity papers, a banknote, a check, a document, a paper, a stock certificate, a packaging component, a credit card, a bank card, a label, a seal, a coin, a token, a casino chip, a medallion, or a postage stamp. 10 . The method of claim 1 , further comprising converting the amplified electronic signal to an authentication output using circuitry having the capacity to convert the amplified electronic signal or data derived therefrom to the authentication output. 11 . The method of claim 1 , further comprising detecting the presence of the value article and initiating emission of light by the exciting light source upon detection of the presence of the value article. 12 . An authentication device comprising: an exciting light source configured to produce light; an optical filter configured to filter radiation comprising light from the exciting light source and emitted radiation from a luminescent material and to produce filtered radiation comprising emitted radiation from the luminescent material; a photodetector configured to detect the filtered radiation after excitation using the modulated light to produce a detected radiation signal; a signal manipulation circuit configured to electronically manipulate the detected radiation signal to reduce an effect of light from the exciting light source on an authentication determination based on the detected radiation signal; and an amplifier configured to amplify the detected radiation signal after the detected radiation signal is electronically manipulated. 13 . The authentication device of claim 12 , further comprising an interrogation zone having the capacity to receive a portion of a value article that includes luminescent material, wherein the exciting light source and the photodetector are configured for interrogation of contents of the interrogation zone. 14 . The authentication device of claim 13 , wherein the photodetector is further configured to receive the filtered radiation including light from the exciting light source reflected from the value article in the interrogation zone. 15 . The authentication device of claim 12 , wherein the exciting light source, the optical filter, the photodetector, and the signal manipulation circuit are disposed on a single substrate. 16 . The authentication device of claim 15 , wherein the authentication device is an integrated circuit. 17 . The authentication device of claim 10 , further comprising circuitry having the capacity to convert the amplified electronic signal or data derived therefrom to an authentication output. 18 . An authentication system comprising: an article path having an inlet, wherein the inlet has the capacity to receive a value article; an authentication device disposed in the article path, wherein the authentication device comprises: an exciting light source configured to produce light; an optical filter configured to filter radiation comprising light from the exciting light source and emitted radiation from a luminescent material and to produce filtered radiation comprising emitted radiation from the luminescent material; a photodetector configured to detect the filtered radiation to produce a detected radiation signal; a signal manipulation circuit configured to electronically manipulate the detected radia