| | | | | | | | Stamp-sized microcavity devices filled with triplet acceptor molecules have been used for the first time to prevent fast radiative emission of Dicke quantum batteries, while retaining fast absorption of light through bright polaritons. |
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| | | | | | Explore imec’s cutting-edge photonics technologies—including silicon photonics and hybrid platforms—for optical interconnects, sensing, and quantum. Learn about key challenges, solutions, and future roadmaps. Join us! |
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| | | | | | Today’s optics and laser technologies for the battlefield can see further to detect threats earlier—and respond to them faster to protect soldiers and vehicles, and ensure mission success. |
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| | | | | | A new twist on a computational approach helps simulate warm dense matter—an exotic state that combines solid, liquid, and gaseous phases—and may advance laser-driven inertial confinement fusion and materials research. |
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| | | | | | Key dimmer parameters such as transmission range, dimmer color, uniformity, and reliability must be considered to ensure augmented reality (AR) glasses provide the expected quality of both projected and real-world images. |
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| | Sponsored | | Alluxa offers and manufactures high-performance optical thin films. All of Alluxa's thin-film optical filters and mirrors are hard-coated using a proprietary plasma deposition process on equipment that was designed and built by our team. This allows us to repeatably produce the same high-performance optical thin films in all of our coating chambers. |
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| | | | | | Congratulations to John Clarke, Michael H. Devoret, and John M. Martinis for their “discovery of macroscopic quantum mechanical tunneling and energy quantization in an electrical circuit.” Their on-chip experiments revealed quantum physics in action. |
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