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Author: David Patel Publisher: ISBN: Category : Languages : en Pages :
Book Description
"Silicon photonics is a technology platform for integrating passive and active optical devices. The ability to use existing CMOS-VLSI foundry processes to fabricate integrated optics enables large volume production at low costs while maintaining compatibility with electronic integrated circuits. With the recent explosion in network traffic, large datacenters are demanding higher and higher intra-datacenter transmission speeds over distances of up to 20 km. For this application, optical interconnects are more energy efficient and are able to satisfy the bandwidth demands of the foreseeable future. Optical modulators are an essential component of these communication links and immense research is dedicated to developing efficient high bitrate devices. It is desirable to have high bitrate transmission over a single channel because it simplifies multiplexing (e.g., fewer wavelengths and parallel fibers) which can increase costs. The work presented in this thesis uses the silicon photonic platform to realize an integrated Mach-Zehnder modulator (MZM) suitable for datacenter communication links.A series push-pull traveling wave MZM is designed using T-shaped extensions to increase the microwave index. The modulator is designed to have a characteristic impedance close to 50 Ohms for matching with common microwave drivers and terminations. In addition, the group velocities of the microwave and optical wave are closely matched to optimize the electro-optic bandwidth. A 37 GHz -3 dB electro-optic bandwidth was measured at 1 V reverse bias. The DC Vpi was measured to be 7 V in the most efficient arm, corresponding to a VpiLpi of 2.8 V-cm. For on-off keying modulation, open eye diagrams are visible up to 60 Gbps. Error-free operation with a bit error rate (BER)
Author: David Patel Publisher: ISBN: Category : Languages : en Pages :
Book Description
"Silicon photonics is a technology platform for integrating passive and active optical devices. The ability to use existing CMOS-VLSI foundry processes to fabricate integrated optics enables large volume production at low costs while maintaining compatibility with electronic integrated circuits. With the recent explosion in network traffic, large datacenters are demanding higher and higher intra-datacenter transmission speeds over distances of up to 20 km. For this application, optical interconnects are more energy efficient and are able to satisfy the bandwidth demands of the foreseeable future. Optical modulators are an essential component of these communication links and immense research is dedicated to developing efficient high bitrate devices. It is desirable to have high bitrate transmission over a single channel because it simplifies multiplexing (e.g., fewer wavelengths and parallel fibers) which can increase costs. The work presented in this thesis uses the silicon photonic platform to realize an integrated Mach-Zehnder modulator (MZM) suitable for datacenter communication links.A series push-pull traveling wave MZM is designed using T-shaped extensions to increase the microwave index. The modulator is designed to have a characteristic impedance close to 50 Ohms for matching with common microwave drivers and terminations. In addition, the group velocities of the microwave and optical wave are closely matched to optimize the electro-optic bandwidth. A 37 GHz -3 dB electro-optic bandwidth was measured at 1 V reverse bias. The DC Vpi was measured to be 7 V in the most efficient arm, corresponding to a VpiLpi of 2.8 V-cm. For on-off keying modulation, open eye diagrams are visible up to 60 Gbps. Error-free operation with a bit error rate (BER)
Author: Alireza Samani Publisher: ISBN: Category : Languages : en Pages :
Book Description
"Global internet traffic has been growing exponentially in the past several years. This increase is fueled by video streaming services (e.g. Netflix, YouTube), cloud-based storages (e.g. Dropbox, google drive), and machine-to-machine (e.g. Internet of Things) applications. Since 2008 most Internet traffic has originated or been terminated in datacenters and the datacenter traffic is forecasted to grow three-fold in the next five years to reach 20.6 zettabytes by 2021. On-Off-Keying (OOK) has been the main modulation format employed in short reach optical interconnects. The simplicity of the transmitter and receiver architectures have been an important factor in the success of OOK for short reach optical links. Recently deployed, 100 Gb/s systems utilize OOK modulation in 4 × 25 Gb/s configuration. However, as we move towards 400 Gb/s and 1 Tb/s systems, OOK requires a proportional increase in the bandwidth. Hence, a more efficient modulation format is required to avoid such complexity. Silicon photonics (SiP) has recently become a popular choice for datacenter interconnects. Taking advantage of years of complementary metal oxide semiconductor research and development, SiP provides a low cost and high yield platform for datacenter optical interconnects. In this thesis, 3 different SiP Mach-Zehnder modulator (MZM) structures to generate higher order modulation formats are presented. First, the feasibility of utilizing coherent transmission systems as opposed to intensity modulation/direct detection systems for 400 Gb/s and 1 Tb/s systems are discussed and an Inphase-Quadrature modulator is presented. We discuss the advantages and disadvantages of using coherent systems for short reach applications. Next, we investigate and compare the performance advantages of generating 4-level Pulse Amplitude Modulation (PAM-4) using various structures of MZM optically, instead of generating PAM-4 in the electrical domain using digital to analog convertors (DACs) for 400 Gb/s systems. The two variants of optical-DACs are a Dual Parallel Mach-Zehnder modulator (DP-MZM) with one series push pull travelling wave MZM on each arm and a single MZM having two electrodes in series that we name Multi-Electrode MZM (ME-MZM). We present the optical design of the modulators and investigate the effects of non-linearities of the MZM transfer function and PN junction phase-shifters on performance of the PAM-4 generation. Then, the DC, small signal and large signal characterization of each modulator are presented. We parametrically examine the transmission performance of each modulator and present an optimized modulator design for optical generation and transmission of 112 Gb/s PAM-4 without using digital signal processing." --
Author: David Patel Publisher: ISBN: Category : Languages : en Pages :
Book Description
"In recent years, the amount of traffic within data centers has increased to a point where electrical interconnects are being replaced by optical interconnects and pluggable modules. Silicon photonics, which uses the existing CMOS fabrication capabilities to develop integrated photonics, offers the ability to make compact devices in high volume with relatively better yield. This makes it a highly desired platform to develop optical transceivers and components for modern data centers. As such, it has recently reached the production phase of the technology development cycle. This thesis studies several devices that are applicablein leading data centers. A detailed analysis and characterization of a silicon Michelson modulator with short 500 um phase shifters and a low VpiLpi of 0.72 V-cm under reverse bias is presented. The optical modulation of reverse biased p-n and forward biased p-i-n junctions is investigated. For reverse bias operation, it is demonstrated that bandwidth can be increased with lower impedance drivers and the driver impedance limits the bitrate achievable. Furthermore, forward bias operation with pre-emphasized signals is shown to have clean eye diagrams up to 40 Gbps. Energy consumption is estimated for all cases of studies and their trade-offs are explained.The work on modulators is further developed by studying series push-pull traveling wave Mach-Zehnder modulators. Measurements of electrodes is compared with simulation validating the methods of increasing impedance and microwave effective index with T-shaped electrodes. Moreover, designs with two and three level implants are compared and it is concluded with measurements that a two level doping design is as good as the design with three level implants, thus reducing the number of masks and processing steps required. Another variation of modulators is the dual-drive modulators. Here, the spacing between electrodes can lead to coupling, which results in different responses depending on whether the modulator is driven single-endedly or differentially. The electro-optic frequency response of a four-port traveling-wave dual-drive modulator with relatively weak coupling amongst the electrodes is measured. It is shown that the electro-optic frequency response of the Mach-Zehnder modulator can be predicted with a 2x2 cascaded matrix model if the Mach-Zehnder modulator is symmetric and differentially driven. In recent years, the increase in data transfers has demanded that more bits be transmitted and received in a given bandwidth. The design and characterization of a silicon-on-insulator traveling-wave multi-electrode Mach-Zehnder modulator is reported in this thesis. This 2-bit electro-optic digital-to-analog converter is formed by dividing a series push-pull Mach-Zehnder modulator into two segments, one for each bit, thus allowing for PAM-4 modulation without using a digital-to-analog converter. The device is operated at speeds up to 50 Gbaud and thus generating 100 Gbps on a single wavelength without signal processing at the transmitter or the receiver. The pre-forward error correction bit error rate is estimated to be lower than the hard-decision forward error correction threshold of 3.8e-3 over 1 km of standard single-mode fiber.Another component that is crucial in optical networks is the optical switch. The optical switch has numerous applications in protection and restoration as well as in certain modern data center architectures. A 4x4 fully non-blocking crossbar switch fabric based on interferometric thermal phase shifters is developed and reported in this thesis. Here, heating is achieved using resistive elements around the silicon waveguide. Switching times of 5 us and 36 mW power consumption in an individual switching element is measured. As a proof of concept, the quality in degradation of switching is demonstrated by routing an input signal to some of the outputs of the switch." --
Author: Matthew Streshinsky Publisher: ISBN: Category : Languages : en Pages : 50
Book Description
An outstanding question has been whether the analog performance of silicon components can compete with conventional optical material systems such as Lithium Niobate. A key challenge for silicon photonics is the fact that most modulators, including the one reported here, are based on a reverse biased PN junction. PN junctions exhibit significant nonlinearities, and it has thus been unclear whether analog performance in the silicon platform could ever compete with what has been achieved with Lithium Niobate based modulators. Characterized here is one of the key metrics for analog performance, the Spur Free Dynamic Range (SFDR). This is a measure of the degree of nonlinear cross-talk between different frequencies propagating in a single system. With the proper device configuration, this work shows that the SFDR of a silicon modulator can approach that of Lithium Niobate based systems. In particular, this modulator achieves 104.5 dB·Hz2/3 SFDR for IMD, which is within 15 dB of the best result in Lithium Niobate, 120.5 dB·Hz2/3. This level of performance is also already sufficient for a number of analog applications, including WLAN. The paths to improving this value are also briefly discussed; there are a number of reasons to believe that performance in integrated silicon photonic systems can be improved in the future, and likely match the performance seen in the very best optical systems for analog links.
Author: Alberto Paradisi Publisher: Springer ISBN: 3319971875 Category : Technology & Engineering Languages : en Pages : 271
Book Description
This book focuses on recent research and developments on optical communications. The chapters present different aspects of optical communication systems, comprising high capacity transmission over long distances, coherent and intensity modulated technologies, orthogonal frequency-division multiplexing, ultrafast switching techniques, and photonic integrated devices. Digital signal processing and error correction techniques are also addressed. The content is of interest to graduate students and researchers in optical communications.
Author: Zwickel, Heiner Publisher: KIT Scientific Publishing ISBN: 3731511436 Category : Languages : en Pages : 196
Book Description
SOH (silicon-organic hybrid) elektrooptische Modulatoren kombinieren Siliziumphotonik mit organischen elektro-optischen Materialien. Dieses Buch befasst sich mit Aspekten, die speziell für den Einsatz von SOH-Modulatoren in praktischen optischen Hochgeschwindigkeitskommunikationssystemen relevant sind, wie z. B. Aufbau- und Verbindungstechnik, Modellierung und die Implementierung effizienter Modulationsformate für IM/DD-Formate. - Silicon-organic hybrid (SOH) electro-optic modulators combining silicon photonic structures with organic EO materials are investigated. This book addresses aspects that are specifically relevant for the use of SOH modulators in practical high-speed optical communication systems such as packaging, modelling of the device, and the implementation of efficient intensity-modulation/direct-detection (IM/DD) modulation formats.
Author: Palmer, Robert Publisher: KIT Scientific Publishing ISBN: 3731503867 Category : Technology (General) Languages : en Pages : 250
Book Description
In this book, silicon photonic integrated circuits are combined with electro-optic organic materials for realizing energy-efficient modulators with unprecedented performance. These silicon-organic hybrid Mach-Zehnder modulators feature a compact size, sub-Volt drive voltages, and they support data rates up to 84 Gbit/s. In addition, a wet chemical waveguide fabrication scheme and an efficient fiber-chip coupling scheme are presented.
Author: Lukas Chrostowski Publisher: Cambridge University Press ISBN: 1107085454 Category : Science Languages : en Pages : 439
Book Description
This hands-on introduction to silicon photonics engineering equips students with everything they need to begin creating foundry-ready designs.
Author: Norbert Grote Publisher: Springer Science & Business Media ISBN: 9783540669777 Category : Technology & Engineering Languages : en Pages : 496
Book Description
Optoelectronic devices and fibre optics are the basis of cutting-edge communication systems. This monograph deals with the various components of these systems, including lasers, amplifiers, modulators, converters, filters, sensors, and more.
Author: Sasan Fathpour Publisher: CRC Press ISBN: 1439806381 Category : Science Languages : en Pages : 436
Book Description
Given silicon's versatile material properties, use of low-cost silicon photonics continues to move beyond light-speed data transmission through fiber-optic cables and computer chips. Its application has also evolved from the device to the integrated-system level. A timely overview of this impressive growth, Silicon Photonics for Telecommunications
Author: David Patel
Author: David Patel
Author: Alireza Samani
Author: David Patel
Author: Matthew Streshinsky
Author: Alberto Paradisi
Author: Zwickel, Heiner
Author: Palmer, Robert
Author: Lukas Chrostowski
Author: Norbert Grote
Author: Sasan Fathpour