Comparative investigation on 10G-class and 25G-class receivers for O
Specifically, a comprehensive comparison of two commercially available receiver candidates is presented, which are the 10G-class receiver and the 25G-class receiver.
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Given that the EML is the incumbent technology, interoperability is measured by how well a receiver having a decision threshold optimized for EML responds to a
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Digital coherent receivers have caused a revolution in the design of optical transmission systems, due to the subsystems and algorithms embedded within such a receiver. After giving a high
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The tunability of EML lasers allows for flexible wavelength selection within optical communication systems, increasing fiber utilization and data
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In this work, we define and analyze a particular application of the QCIS concept: quantum receivers for higher rate coherent optical communication.
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SiGe is a high value, differentiating technology which we will continue to leverage in the company''s core product segments. Key applications include high-speed optical network transceivers, basestations,
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In fact, achieving the ultimate limit of optical communication capacity, especially in the low light regime, requires coherent joint detection of multiple pulses. Despite their superiority, such joint detection
Quantum limited performance of optical receivers
Download Citation | On May 2, 2018, Thomas C. Farrell published Quantum limited performance of optical receivers | Find, read and cite all the research you need on ResearchGate
Receiver beats quantum limit
Optical communication — the backbone of broadband networks — represents one of the most important technologies underpinning modern life.
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Abstract Communication is an integral part of human life. Today, optical pulses are the preferred information carriers for long-distance communication. The exponential growth in data leads
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The most efficient modern optical communication is known as coherent communication and its standard quantum limit (SQL) is almost reachable with current technology. Though it has
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I. INTRODUCTION The bosonic channel plays a crucial role in clas- sical and quantum information theory applied to optical communications. Classical capacity of the bosonic channel is particularly
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In this review article, the authors focus on quantum receivers that can be practically implemented at the current state of technology, first and foremost displacement-based receivers.
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The quantum-receiver hardware is a fiber-based platform operating at the c-band of optical communication. The components realize suitable
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Optical communication is the standard for high-bandwidth information transfer in today''s digital age. The increasing demand for bandwidth has led to the maturation of coherent transceivers
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Fiber-Optic Distribution of Polarization Entangled Photons The capability to efficiently generate and distribute high-quality entangled photons is key to many applications of photonic quantum information
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The chapter focuses on reverse‐biased p–n junctions that are used for making optical receivers, and discusses metal–semiconductor–metal photodetectors. The design of an optical receiver depends on
Experimental Comparative Investigation of 10G-Class and 25G-Class
PDF | On Sep 1, 2017, Xin Miao and others published Experimental Comparative Investigation of 10G-Class and 25G-Class Receivers in 100G-EPON with O-band DML | Find, read and cite all the
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Many applications of optical communications build on network architectures that go beyond simple point-to-point links. In these any-to-any architectures, many transmitters may communicate with a single
Monolithically integrated switchable optical receiver for classical and
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In this project authors aim to optimize the detection strategy of single-photon-level optical signal by analyzing and comparing the performance of various quantum