IEEE Journal of Selected Topics in Quantum Electronics

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The IEEE Journal of Selected Topics in Quantum Electronics is a scientific journal, published by the Institute of Electrical and Electronics Engineers. (Wikipedia.org)




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Photonics Technology Letters, IEEE

Rapid publication of original research relevant to photonics technology. This expanding field emphasizes laser and electro-optic technology, laser physics and systems, applications, and photonic/ lightwave components and applications. The journal offers short, archival publication with minimal delay.


Quantum Electronics, IEEE Journal of

Generation, amplification, modulation, detection, waveguiding, or techniques and effects that can affect the propagation characteristics of coherent electromagnetic radiation having submillimeter and shorter wavelengths


Selected Topics in Quantum Electronics, IEEE Journal of

40% devoted to special issues published in J. Quantum Electronics. Other topics: solid-state lasers, fiber lasers, optical diagnostics for semi-conductor manufacturing, and ultraviolet lasers and applications.



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Thermal resistance of InAs/InP quantum dot laser

IEEE Journal of Selected Topics in Quantum Electronics, None

NOTICE TO THE READER It is recommended and agreed upon by the authors and the Editor-in-Chief of the IEEE Journal of Selected Topics in Quantum Electronics that the following article: “Thermal Resistance of InAs/InP Quantum Dot Laser,” by S. G. Li, Q. Gong, C. F. Cao, X. Z. Wang, J. Y. Yan, Y. Wang and H. L. Wang, DOI: 10.1109/JSTQE.2014.2302355 ...


Corrections to "High-power continuous-wave 3- and 2-/spl mu/m cascade ho :ZBLAN fiber laser and its medical applications"

IEEE Journal of Selected Topics in Quantum Electronics, 1999

None


Corrections to "Design of arrayed-waveguide gratings using hybrid Fourier-Fresnel transform techniques"

IEEE Journal of Selected Topics in Quantum Electronics, 2000

None


Correction To "Lanthanide-based Resonance Energy Transfer"

IEEE Journal of Selected Topics in Quantum Electronics, 1997

None


Corrections to “Resonant Combinatorial Frequency Generation Induced by a PT-Symmetric Periodic Layered Stack” [Sep/Oct 16 DOI: 10.1109/JSTQE.2015.2505139]

IEEE Journal of Selected Topics in Quantum Electronics, 2017

Presents corrections to the paper, “Resonant combinatorial frequency generation induced by a PT-symmetric periodic layered stack,” (Shramkova, O.V. and Tsironis, G.P.), IEEE J. Sel. Topics Quantum Electron., vol. 22, no. 5, Sep./Oct. 2016, Art. no. 5000307. doi: 10.1109/JSTQE.2015.2505139.


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IEEE-USA E-Books

  • Thermal resistance of InAs/InP quantum dot laser

    NOTICE TO THE READER It is recommended and agreed upon by the authors and the Editor-in-Chief of the IEEE Journal of Selected Topics in Quantum Electronics that the following article: “Thermal Resistance of InAs/InP Quantum Dot Laser,” by S. G. Li, Q. Gong, C. F. Cao, X. Z. Wang, J. Y. Yan, Y. Wang and H. L. Wang, DOI: 10.1109/JSTQE.2014.2302355 is withdrawn and should not be considered for citation use. Editor-in-Chief, IEEE Journal of Selected Topics in Quantum Electronics

  • Corrections to "High-power continuous-wave 3- and 2-/spl mu/m cascade ho :ZBLAN fiber laser and its medical applications"

    None

  • Corrections to "Design of arrayed-waveguide gratings using hybrid Fourier-Fresnel transform techniques"

    None

  • Correction To "Lanthanide-based Resonance Energy Transfer"

    None

  • Corrections to “Resonant Combinatorial Frequency Generation Induced by a PT-Symmetric Periodic Layered Stack” [Sep/Oct 16 DOI: 10.1109/JSTQE.2015.2505139]

    Presents corrections to the paper, “Resonant combinatorial frequency generation induced by a PT-symmetric periodic layered stack,” (Shramkova, O.V. and Tsironis, G.P.), IEEE J. Sel. Topics Quantum Electron., vol. 22, no. 5, Sep./Oct. 2016, Art. no. 5000307. doi: 10.1109/JSTQE.2015.2505139.

  • A 325-W-Average-Power Fiber CPA System Delivering Sub-400 fs Pulses

    A high-average-power Yb-doped fiber chirped-pulse amplification system is presented. Compressed average power of 325 W at 40 MHz repetition rate corresponding to 8.2 muJ pulse energy is extracted. Compression in a highly efficient dielectric-grating-based compressor yields pulses as short as 375 fs, resulting in 22 MW of peak power.

  • Reliability of Hybrid Silicon Distributed Feedback Lasers

    We present results from reliability studies on hybrid silicon distributed feedback lasers. The devices show no degradation at 70 °C for 5000 h. We investigate the influence on reliability of a superlattice between the active region and the bonded interface. Transmission electron microscopy images from a failed device show no defects in the active region along a 15-μm-long longitudinal cross section at the center of the laser cavity.

  • The AMOEBA switch: an optoelectronic switch for multiprocessor networking using dense-WDM

    We present a single-chip asynchronous multiprocessor optoelectronic bit-sliced arrayed (AMOEBA) crossbar switch. The AMOEBA switch addresses the challenge to produce a large-scale, nonblocking packet switch through dense integration of photonic devices directly onto silicon VLSI circuits. Optoelectronic-VLSI technology is used to integrate the switch fabric, routing controller, packet buffers, line interface circuits, and optoelectronic conversion devices on a single chip. We show how free-space optical interconnects and wavelength-and- space-division-multiplex networking on single-mode fibers can provide switched interconnection between multiple nodes in a distributed computing environment. An optomechanical transceiver package accomplishes the free-space-to-fiber interfacing. We report the implementation and testing of the key components of a 16-channel AMOEBA prototype switch with a potential capacity of 12.8 Gb/s (or 800 Mb/s/channel), and capable of switching 16 million packets per second.

  • Four-wave mixing in semiconductor optical amplifiers for frequency conversion and fast optical switching

    Four-wave mixing (FWM) in semiconductor optical amplifiers (SOAs) is an important tool for frequency conversion and fast optical switching in all- optical communication networks. We review the main applications of SOAs as nonlinear optical components. Concentrating on FWM, we define general parameters that are of relevance for signal processing applications. We show, how basic experiments and general simulation procedures can be used to determine optimum operating conditions for the intended applications. Besides a comprehensive investigation of FWM among continuous waves, we present new experimental results on FWM with picosecond optical pulses. A comparison of both reveals a different behavior and demonstrates that new optimization criteria and advanced theoretical models have to be applied for the case of short optical pulses. Moreover, we discuss the possibility to extract the dynamical SOA parameters from our experiments.

  • Surface micromachined segmented mirrors for adaptive optics

    This paper presents recent results for aberration correction and beam steering experiments using polysilicon surface micromachined piston micromirror arrays. Microfabricated deformable mirrors offer a substantial cost reduction for adaptive optic systems. In addition to the reduced mirror cost, microfabricated mirrors typically require low control voltages (less than 30 V), thus eliminating high-voltage amplifiers. The greatly reduced cost per channel of adaptive optic systems employing microfabricated deformable mirrors promise high-order aberration correction at low cost. Arrays of piston micromirrors with 128 active elements were tested. Mirror elements are on a 203-/spl mu/m 12/spl times/12 square grid (with 16 inactive elements, four in each corner of the array). The overall array size is 2.4 mm square. The arrays were fabricated in a commercially available surface micromachining process. The cost per mirror array in this prototyping process is less than $200. Experimental results are presented for a hybrid correcting element comprised of a lenslet array and piston micromirror array, and for a piston micromirror array only. Also presented is a novel digital deflection micromirror that requires no digital to analog converters, further reducing the cost of adaptive optics systems.



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