Novel anti-snooping luminous warning optical PUF

An optical and warning technology, which is applied in the direction of record carriers, instruments, and computer components used in machines, can solve the problems of high safety performance of optical PUF and failure to prevent excitation-response equivalence, and achieve the effect of ensuring safety and simple preparation

Inactive Publication Date: 2016-03-16
INST OF ELECTRONICS ENG CHINA ACAD OF ENG PHYSICS
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a new type of anti-peeping light-emitting warning optical PUF, which effectively utilizes the light-emitting behavior of long-lasting luminescent materials under illumination, and can be used as an effective basis for judging whether the PUF has been spied on, and solves the problem that ordinary optical PUFs cannot To prevent the attacker from using the incentive light to spy on the defect of the PUF excitation-response pair, and then use the long afterglow effect produced by the long afterglow material under ambient light to realize the function of anti-snooping luminous warning. The optical PUF has high security performance

Method used

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  • Novel anti-snooping luminous warning optical PUF

Examples

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Effect test

Embodiment 1

[0031] An anti-snooping light-emitting warning optical PUF with an excitation wavelength greater than 550nm.

[0032] In this example, Sr 2 Mg 2 SiO 7 : Eu, Dy as long afterglow luminescent anti-spy material. Its structural diagram is as figure 1 shown.

[0033] The optical PUF uses 250 micron thick quartz glass as the substrate. 5g Long Afterglow Sr 2 Mg 2 SiO 7 : Eu, Dy nanoparticles, mixed in 200g of TiO with a particle size of 200nm 2 In the nanoparticle dispersion liquid, the dispersion liquid fraction is 5%. Afterwards, the mixed dispersion liquid is sprayed on the quartz glass to form an optical PUF scattering medium with a thickness of 20-30 microns embedded with long afterglow materials. Finally, put this structure into a slidable opaque box to ensure that when the optical PUF is not excited, the box is in a closed state to prevent ambient light from irradiating the PUF and causing luminescence. Such as figure 2 As shown, it is the long afterglow luminesc...

Embodiment 2

[0035] An anti-cracking and anti-snooping light-emitting warning optical PUF for near-infrared light excitation.

[0036] Zn used in this example 3 Ga 2 Ge 2 o 10 : Cr 3+ As a long afterglow glow anti-spy material. Its structural diagram is as image 3 shown. The optical PUF uses a 160-micron-thick gem sheet as a substrate. 10g particle size is 2-5 micron long afterglow luminescent material Zn 3 Ga 2 Ge 2 o 10 : Cr 3+ Particles, mixed in 200g of ZnO particles with a particle size of 200nm 2 In the nanoparticle dispersion liquid, the dispersion liquid fraction is 2.5%. Afterwards, the mixed dispersion liquid is sprayed on the gemstone substrate to form an optical PUF scattering medium embedded with long afterglow materials with a thickness of 20-30 microns. Finally, put this structure into a slidable opaque box to ensure that when the optical PUF is not excited, the box is in a closed state to prevent sunlight or light from shining on the optical PUF to cause lumi...

Embodiment 3

[0038] An optical PUF for anti-spying light-emitting warning optical PUF based on long-lasting ceramic materials with near-infrared excitation wavelength, using Zn with a thickness of 160 microns 3 Ga 2 Ge 2 o 10 : Cr 3+ ceramics as the substrate. The substrate also has long afterglow luminous properties. The GaP nanoparticle dispersion with a volume fraction of 2.5% and a particle size of 200nm is sprayed on a substrate with long-lasting luminescent properties to form an optical PUF scattering medium with a thickness of 20-30 microns. Finally, put this structure into a slidable opaque box to ensure that when the optical PUF is not excited, the box is in a closed state to prevent sunlight or light from shining on the optical PUF to cause luminescence. Its structural diagram is as Figure 5 shown. The long afterglow luminescence spectral properties of the ceramic substrate material and Figure 4 Consistently, when the wavelength is greater than 650nm, it is a non-excita...

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Abstract

The invention discloses a novel anti-snooping luminous warning optical PUF. The novel anti-snooping luminous warning optical PUF structurally comprises a substrate, an optical PUF dielectric layer growing on the substrate, a long afterglow luminescent material capable of being embedded in the substrate or the optical PUF dielectric layer, and a non-transparent box for packaging the substrate, the optical PUF dielectric layer and the long afterglow luminescent material therein. According to the novel anti-snooping luminous warning optical PUF, the long afterglow luminescent material added into a conventional optical PUF structure still can continuously emit light for a long time after the material is irradiated through a light source for a short time and the light source is turned off, and the light emitting behavior is utilized as a basis for judging whether the PUF is snooped or not, so that the PUF is endowed with an anti-snooping luminous warning function and the defect that a general optical PUF cannot judge whether excitation-response pairs of the optical PUF are snooped by an enemy or not is overcome; the PUF has the anti-snooping luminous warning function, so that the security of the optical PUF is ensured; and therefore, the novel anti-snooping luminous warning optical PUF has true practicality and can be widely applied to quantum authentication and quantum key distribution.

Description

technical field [0001] The invention relates to the security field based on PUF, in particular to a novel anti-snooping luminescent warning optical PUF suitable for IP protection, system authentication, trusted computing, secret key generation and other fields. Background technique [0002] In recent years, with the rapid development of informatization and the Internet of Things, identity authentication has become an indispensable key link in daily life. However, bank cards, credit cards, ID cards and other authentication card information are leaked or stolen by hackers, illegal duplication and other incidents occur frequently and frequently, and it is not uncommon to seek ways to ensure that identity information is not cloned or used fraudulently. Some solutions, such as EMV smart cards, use embedded chips instead of traditional magnetic stripes to store identity data. However, with this method based on mathematical methods, the information in the storage card can still be ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K19/073G06K19/06G06K19/02
CPCG06K19/022G06K19/06009G06K19/07309
Inventor 李倩李沫陈飞良龙衡姚尧孙鹏高铭代刚张健
Owner INST OF ELECTRONICS ENG CHINA ACAD OF ENG PHYSICS
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