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Photonics and Electronics with Germanium

2015-08-10 Science
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Release : 2015-08-10
Genre : Science
Kind : eBook
Book Rating : 211/5 ( reviews)

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Book Synopsis Photonics and Electronics with Germanium by : Kazumi Wada

Download or read book Photonics and Electronics with Germanium written by Kazumi Wada. This book was released on 2015-08-10. Available in PDF, EPUB and Kindle. Book excerpt: Representing a further step towards enabling the convergence of computing and communication, this handbook and reference treats germanium electronics and optics on an equal footing. Renowned experts paint the big picture, combining both introductory material and the latest results. The first part of the book introduces readers to the fundamental properties of germanium, such as band offsets, impurities, defects and surface structures, which determine the performance of germanium-based devices in conjunction with conventional silicon technology. The second part covers methods of preparing and processing germanium structures, including chemical and physical vapor deposition, condensation approaches and chemical etching. The third and largest part gives a broad overview of the applications of integrated germanium technology: waveguides, photodetectors, modulators, ring resonators, transistors and, prominently, light-emitting devices. An invaluable one-stop resource for both researchers and developers.

Photonics and Electronics with Germanium

2015-05-06 Science
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Release : 2015-05-06
Genre : Science
Kind : eBook
Book Rating : 229/5 ( reviews)

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Book Synopsis Photonics and Electronics with Germanium by : Kazumi Wada

Download or read book Photonics and Electronics with Germanium written by Kazumi Wada. This book was released on 2015-05-06. Available in PDF, EPUB and Kindle. Book excerpt: Representing a further step towards enabling the convergence of computing and communication, this handbook and reference treats germanium electronics and optics on an equal footing. Renowned experts paint the big picture, combining both introductory material and the latest results. The first part of the book introduces readers to the fundamental properties of germanium, such as band offsets, impurities, defects and surface structures, which determine the performance of germanium-based devices in conjunction with conventional silicon technology. The second part covers methods of preparing and processing germanium structures, including chemical and physical vapor deposition, condensation approaches and chemical etching. The third and largest part gives a broad overview of the applications of integrated germanium technology: waveguides, photodetectors, modulators, ring resonators, transistors and, prominently, light-emitting devices. An invaluable one-stop resource for both researchers and developers.

Strain Engineering Germanium-tin in Group IV Photonics

2018
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Release : 2018
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Book Synopsis Strain Engineering Germanium-tin in Group IV Photonics by : Colleen Shang Fenrich

Download or read book Strain Engineering Germanium-tin in Group IV Photonics written by Colleen Shang Fenrich. This book was released on 2018. Available in PDF, EPUB and Kindle. Book excerpt: The scaling of technology nodes to smaller length scales has enabled unprecedented growth for silicon integrated circuits (IC). The reduction of critical feature dimensions has allowed larger densities of integrated components and improved performance on the device level. At the same time, however, scaling has presented increasing challenges for the performance of global electrical interconnects, which comprise the longest wire lengths on a chip. One solution to overcoming the limitations of electrical interconnect technology is the integration of optical interconnects. While optical communications has already been employed on much larger length scales, the application of optical interconnects for chip-to-chip and on-chip communications has yet to be realized. In the IC industry, the silicon (Si) complementary metal-oxide-semiconductor (CMOS) platform has unified and enabled large-scale integration, but Si performs poorly as an active optical material due to its indirect band gap. As a result, an integrated Si laser has remained elusive in Si photonics, although the ability to leverage this platform for photonic integration has the potential to achieve low cost and high-throughput manufacturing, while maintaining compatibility with CMOS electronics. Developing a tunable direct band gap group IV semiconductor can instead be achieved using the binary germanium-tin system. The incorporation of Sn into the Ge crystal reduces the energy difference between the direct and indirect conduction band minima. A major challenge of the germanium-tin system is lattice mismatch with respect to Si or Ge-buffered Si substrates. Significant compressive strain arises from the coherent epitaxial growth of germanium-tin on these substrates, which inhibits the onset of the fundamental direct gap. This dissertation explores methods of strain engineering pseudomorphic germanium-tin epitaxy to relieve lattice mismatch strain that inhibits the onset of the fundamental direct band gap.

Photonic Integration and Photonics-Electronics Convergence on Silicon Platform

2015-11-10 Engineering (General). Civil engineering (General)
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Release : 2015-11-10
Genre : Engineering (General). Civil engineering (General)
Kind : eBook
Book Rating : 933/5 ( reviews)

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Book Synopsis Photonic Integration and Photonics-Electronics Convergence on Silicon Platform by : Koji Yamada

Download or read book Photonic Integration and Photonics-Electronics Convergence on Silicon Platform written by Koji Yamada. This book was released on 2015-11-10. Available in PDF, EPUB and Kindle. Book excerpt: Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provide a compact photonic integration platform with high integration density, mass-producibility, and excellent cost performance. This technology has been used to develop and to integrate various photonic functions on silicon substrate. Moreover, photonics-electronics convergence based on silicon substrate is now being pursued. Thanks to these features, silicon photonics will have the potential to be a superior technology used in the construction of energy-efficient cost-effective apparatuses for various applications, such as communications, information processing, and sensing. Considering the material characteristics of silicon and difficulties in microfabrication technology, however, silicon by itself is not necessarily an ideal material. For example, silicon is not suitable for light emitting devices because it is an indirect transition material. The resolution and dynamic range of silicon-based interference devices, such as wavelength filters, are significantly limited by fabrication errors in microfabrication processes. For further performance improvement, therefore, various assisting materials, such as indium-phosphide, silicon-nitride, germanium-tin, are now being imported into silicon photonics by using various heterogeneous integration technologies, such as low-temperature film deposition and wafer/die bonding. These assisting materials and heterogeneous integration technologies would also expand the application field of silicon photonics technology. Fortunately, silicon photonics technology has superior flexibility and robustness for heterogeneous integration. Moreover, along with photonic functions, silicon photonics technology has an ability of integration of electronic functions. In other words, we are on the verge of obtaining an ultimate technology that can integrate all photonic and electronic functions on a single Si chip. This e-Book aims at covering recent developments of the silicon photonic platform and novel functionalities with heterogeneous material integrations on this platform.

High Speed, Low Driving Voltage Vertical Cavity Germanium-silicon Modulators for Optical Interconnect

2010
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Release : 2010
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Book Synopsis High Speed, Low Driving Voltage Vertical Cavity Germanium-silicon Modulators for Optical Interconnect by : Yiwen Rong

Download or read book High Speed, Low Driving Voltage Vertical Cavity Germanium-silicon Modulators for Optical Interconnect written by Yiwen Rong. This book was released on 2010. Available in PDF, EPUB and Kindle. Book excerpt: Information processing requires interconnects to carry information from one place to another. Optical interconnects between electronics systems have attracted significant attention and development for a number of years because optical links have demonstrated potential advantages for high-speed, low-power, and interference immunity. With increasing system speed and greater bandwidth requirements, the distance over which optical communication is useful has continually decreased to chip-to-chip and on-chip levels. Monolithic integration of photonics and electronics will significantly reduce the cost of optical components and further combine the functionalities of chips on the same or different boards or systems. Modulators are one of the fundamental building blocks for optical interconnects. Previous work demonstrated modulators based upon the quantum confined Stark effect (QCSE) in SiGe p-i-n devices with strained Ge/SiGe multi-quantum-well (MQW) structures in the i region. While the previous work demonstrated the effect, it did not examine the high-speed aspects of the device, which is the focus of this dissertation. High-speed modulation and low driving voltage are the keys for the device's practical use. At lower optical intensity operation, the ultimate limitation in speed will be the RC time constant of the device itself. At high optical intensity, the large number of photo generated carriers in the MQW region will limit the performance of the device through photo carrier related voltage drop and exciton saturation. In previous work, the devices consist of MQWs configured as p-i-n diodes. The electric field induced absorption change by QCSE modulates the optical transmission of the device. The focus of this thesis is the optimization of MQW material deposition, minimization of the parasitic capacitance of the probe pads for high speed, low voltage and high contrast ratio operation. The design, fabrication and high-speed characterization of devices of different sizes, with different bias voltages are presented. The device fabrication is based on processes for standard silicon electronics and is suitable for mass-production. This research will enable efficient transceivers to be monolithically integrated with silicon chips for high-speed optical interconnects. We demonstrated a modulator, with an eye diagram of 3.125GHz, a small driving voltage of 2.5V and an f3dB bandwidth greater than 30GHz. Carrier dynamics under ultra-fast laser excitation and high-speed photocurrent response are also investigated.

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