IEEE Journal of Quantum Electronics

Issue 3 • March 2015

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Displaying Results 1 - 15 of 15
  • Front cover

    Publication Year: 2015, Article Sequence Number: 0000301
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  • IEEE Journal of Quantum Electronics publication information

    Publication Year: 2015, Article Sequence Number: 0001501
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  • Table of contents

    Publication Year: 2015, Article Sequence Number: 0100301
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  • JQE 50 Most Cited Articles

    Publication Year: 2015, Article Sequence Number: 0400102
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  • Regenerative Modes in Laser Resonators

    Publication Year: 2015, Article Sequence Number: 1100109
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (767 KB) | HTML iconHTML

    We will develop a general theory of laser resonators based on an analysis of optimized regenerative optical amplifiers. In particular, we demonstrate that a description of the circulating field in the regenerative amplifier should not be decoupled from the injected field description. Specifically, we solve the following problem: for a given wavelength and gain setting, is there an injected field t... View full abstract»

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  • Enhanced Flat Broadband Optical Chaos Using Low-Cost VCSEL and Fiber Ring Resonator

    Publication Year: 2015, Article Sequence Number: 1200106
    Cited by:  Papers (8)
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    Low-cost vertical-cavity surface-emitting laser (VCSEL) and semiconductor optical amplifier (SOA) have been explored experimentally in a setup with a fiber ring resonator to generate flat broadband chaos. The effect of the frequency detuning between the fiber grating frequency and the free-running VCSEL's frequency, and the bias current of the SOA on the bandwidth of chaos has been studied. The re... View full abstract»

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  • Attosecond Pulse Enhancement by Using Orthogonal Two-Color Field Combined With a Linear Infrared Pulse

    Publication Year: 2015, Article Sequence Number: 1200206
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (1133 KB) | HTML iconHTML

    Attosecond pulse generation from high-order harmonic spectrum has been theoretically investigated using the two-color orthogonal field combined with a linear infrared pulse. It shows that by properly adding a linear infrared pulse to the orthogonal field in x- or y-direction, not only the harmonic cutoffs and the harmonic yields are enhanced, but also the modulations on the harmonic spectra are de... View full abstract»

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  • A New Optical Gain Model for Quantum Wells Based on Quantum Well Transmission Line Modeling Method

    Publication Year: 2015, Article Sequence Number: 2500108
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (1359 KB) | HTML iconHTML

    This paper presents a new method for modeling the gain spectrum in quantum well (QW) structures based on the QW transmission line modeling (QW-TLM) method. In the QW-TLM method, three parallel RLC filters together with their associated weight coefficients constitute a QW-TLM unit, which represents the processes that electrons transit from the conduction band to the heavy hole band, the light hole ... View full abstract»

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  • GaN-Based White LEDs With CIS/ZnS Quantum Dots Synthesized Using Polyetheramine as Solvent

    Publication Year: 2015, Article Sequence Number: 3300106
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (1248 KB) | HTML iconHTML

    We propose a fast and low-temperature method to synthesize CuInS2/ZnS quantum dots (CIS/ZnS QDs) using polyetheramine (D400) as solvent. It was found that the CIS/ZnS QDs synthesized at 140 °C exhibited a broad photoluminescence (PL) emission bandwidth (i.e., 135 nm) and a small PL blueshifted (i.e., 20 nm) as we coated the ZnS shells onto the CIS cores. Compared with the convent... View full abstract»

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  • Nonidealities and Dark Current in IR Photodetector Based on Silicide-Nanolayer Schottky Barrier Integrated Into a Si Microring Resonator

    Publication Year: 2015, Article Sequence Number: 4000108
    Cited by:  Papers (3)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (1251 KB) | HTML iconHTML

    Using a Z-transfer model applicable to a microring resonator enhanced internal photoemission-based photodetector (MRRE-IPE-PD); we develop a model for evaluating the effect of reflections in the microring resonator (MRR) on the quantum efficiency (QE). Simulations show that a 5% increase in the reflection from an ideal case QE and MRR quality factor reduces by ~30%. We also show that further incre... View full abstract»

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  • Optical Lattice Model Toward Nonreciprocal Invisibility Cloaking

    Publication Year: 2015, Article Sequence Number: 6100110
    Cited by:  Papers (2)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (2800 KB) | HTML iconHTML

    We propose the design theory of nonreciprocal invisibility cloaking for an optical camouflage device with unidirectional transparency in which a person in the cloak can see the outside but cannot be seen from the outside. Existing theories of designing invisibility cloaks cannot be used for this purpose, because they are based on the transformation optics that uses the Riemannian metric tensor ind... View full abstract»

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  • Superluminal Pulse Reflection From Graphene Covered Lossless Dielectric Slab

    Publication Year: 2015, Article Sequence Number: 7000106
    Cited by:  Papers (1)
    Request permission for commercial reuse | Click to expandAbstract |PDF file iconPDF (2117 KB) | HTML iconHTML

    Group delay of the optical pulse reflected from the graphene covered lossless dielectric slab is studied, and large negative group delay is demonstrated near a resonance of the slab due to the graphene sheet appearing on the surface of dielectric slab, even if the dielectric slab is lossless. It is shown that even a single-layer graphene (as thin as 0.34 nm) can allow for a greatly change of the o... View full abstract»

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  • Blank page

    Publication Year: 2015, Article Sequence Number: 9900102
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  • IEEE Journal of Quantum Electronics information for authors

    Publication Year: 2015, Article Sequence Number: 0002701
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    Publication Year: 2015, Article Sequence Number: 0003901
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Aims & Scope

The IEEE Journal of Quantum Electronics is dedicated to the publication of manuscripts reporting novel experimental or theoretical results in the broad field of the science and technology of quantum electronics.

Full Aims & Scope

Meet Our Editors

Editor-in-Chief
Prof. Hon Ki Tsang
Chinese University of Hong Kong