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[IEEE 2018 IEEE XXVII International Scientific Conference Electronics (ET) - Sozopol (2018.9.13-2018.9.15)] 2018 IEEE XXVII International Scientific Conference Electronics - ET - Contactless transmission of power and control signals by multiplexing the frequency
摘要: For contactless power transmission systems, the actual scientific topic is the parallel two-way communication between the transmitting and receiving sides through the same power electromagnetic module. This technical solution enables the removal of the additional contactless module for the transmission of information and control signals and respectively, for improvement of the operational and technical characteristics of the contactless transmitters. This paper examines inductive methods that integrate bidirectional data transmission in the power module system for energy transfer. Various methods for the simultaneous transmission of energy and data are analyzed. Main attention is paid to the frequency multiplexing method, with its advantages over other methods.
关键词: Frequency Multiplexing,Information Signals,Data Transfer,Contactless Systems
更新于2025-09-23 15:22:29
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[IEEE 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC) - Munich, Germany (2019.6.23-2019.6.27)] 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC) - Quantum Storage of Frequency-Multiplexed Heralded Single Photons
摘要: Quantum memories for light are important devices in quantum information science, in particular for applications such as quantum networks and quantum repeaters [1]. It has been predicted that multimode quantum memories able to store independently multiple modes would greatly help the scaling of quantum networks by decreasing the entanglement generation time between remote quantum nodes [1]. Current research focuses mostly on time multiplexing in rare-earth doped crystals and in spatial multiplexing in atomic gases. Beyond these demonstrations, rare-earth doped crystals, thanks to their large inhomogeneous broadening, represent a unique quantum system which could also add another degree of freedom for multiplexing, the storage of multiple frequency modes [2]. In this contribution, we report on the first demonstration of quantum storage of a frequency multiplexed single photon into a laser-written waveguide integrated in a Pr3+:Y2SiO5 crystal. The great advantage of using a confined waveguide for this task is that the power required to prepare the quantum memory is strongly reduced due to the increased light-matter interaction in the waveguide. This enables simultaneous preparation of several memories at different frequencies, with a moderate laser power.
关键词: quantum repeaters,Quantum memory,single photons,quantum networks,frequency multiplexing
更新于2025-09-11 14:15:04
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Excitation-multiplexed multicolor superresolution imaging with fm-STORM and fm-DNA-PAINT
摘要: Recent advancements in single-molecule-based superresolution microscopy have made it possible to visualize biological structures with unprecedented spatial resolution. Determining the spatial coorganization of these structures within cells under physiological and pathological conditions is an important biological goal. This goal has been stymied by the current limitations of carrying out superresolution microscopy in multiple colors. Here, we develop an approach for simultaneous multicolor superresolution imaging which relies solely on fluorophore excitation, rather than fluorescence emission properties. By modulating the intensity of the excitation lasers at different frequencies, we show that the color channel can be determined based on the fluorophore’s response to the modulated excitation. We use this frequency multiplexing to reduce the image acquisition time of multicolor superresolution DNA-PAINT while maintaining all its advantages: minimal color cross-talk, minimal photobleaching, maximal signal throughput, ability to maintain the fluorophore density per imaged color, and ability to use the full camera field of view. We refer to this imaging modality as “frequency multiplexed DNA-PAINT,” or fm-DNA-PAINT for short. We also show that frequency multiplexing is fully compatible with STORM superresolution imaging, which we term fm-STORM. Unlike fm-DNA-PAINT, fm-STORM is prone to color cross-talk. To overcome this caveat, we further develop a machine-learning algorithm to correct for color cross-talk with more than 95% accuracy, without the need for prior information about the imaged structure.
关键词: STORM,frequency multiplexing,multicolor imaging,DNA-PAINT,superresolution microscopy
更新于2025-09-09 09:28:46