Quantum imaging is a new sub-field of quantum optics that exploits quantum correlations such as quantum entanglement of the electromagnetic field in order to image objects with a resolution or other imaging criteria that is beyond what is possible in classical optics. Examples of quantum imaging are quantum ghost imaging, quantum lithography, sub-shot-noise imaging, and quantum sensing. Quantum imaging may someday be useful for storing patterns of data in quantum computers and transmitting large amounts of highly secure encrypted information. Quantum mechanics has shown that light has inherent “uncertainties” in its features, manifested as moment-to-moment fluctuations in its properties. Controlling these fluctuations—which represent a sort of “noise”—can improve detection of faint objects
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| - Quantum imaging (en)
- 量子成像 (zh)
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| - 量子成像(英語:Quantum Imaging,QI),又称鬼成像(英語:Ghost Imaging,GI)、关联成像(英語:Correlated imaging,CI)等,是一种利用光场的二阶或高阶关联获得物体信息的成像方法。量子成像属于非定域成像,其概念起源于20世纪50年代的HB-T实验。继纠缠光量子成像实验之后,陆续有研究者提出了经典光量子成像、无透镜量子成像、计算量子成像、差分量子成像等技术。量子成像技术在光刻、激光雷达、生物组织造影、水下成像等领域都有应用。 (zh)
- Quantum imaging is a new sub-field of quantum optics that exploits quantum correlations such as quantum entanglement of the electromagnetic field in order to image objects with a resolution or other imaging criteria that is beyond what is possible in classical optics. Examples of quantum imaging are quantum ghost imaging, quantum lithography, sub-shot-noise imaging, and quantum sensing. Quantum imaging may someday be useful for storing patterns of data in quantum computers and transmitting large amounts of highly secure encrypted information. Quantum mechanics has shown that light has inherent “uncertainties” in its features, manifested as moment-to-moment fluctuations in its properties. Controlling these fluctuations—which represent a sort of “noise”—can improve detection of faint objects (en)
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| - Quantum imaging is a new sub-field of quantum optics that exploits quantum correlations such as quantum entanglement of the electromagnetic field in order to image objects with a resolution or other imaging criteria that is beyond what is possible in classical optics. Examples of quantum imaging are quantum ghost imaging, quantum lithography, sub-shot-noise imaging, and quantum sensing. Quantum imaging may someday be useful for storing patterns of data in quantum computers and transmitting large amounts of highly secure encrypted information. Quantum mechanics has shown that light has inherent “uncertainties” in its features, manifested as moment-to-moment fluctuations in its properties. Controlling these fluctuations—which represent a sort of “noise”—can improve detection of faint objects, produce better amplified images, and allow workers to more accurately position laser beams. (en)
- 量子成像(英語:Quantum Imaging,QI),又称鬼成像(英語:Ghost Imaging,GI)、关联成像(英語:Correlated imaging,CI)等,是一种利用光场的二阶或高阶关联获得物体信息的成像方法。量子成像属于非定域成像,其概念起源于20世纪50年代的HB-T实验。继纠缠光量子成像实验之后,陆续有研究者提出了经典光量子成像、无透镜量子成像、计算量子成像、差分量子成像等技术。量子成像技术在光刻、激光雷达、生物组织造影、水下成像等领域都有应用。 (zh)
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| - Journal of Modern Optics (en)
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