Design, fabrication and characterization of terahertz planar Schottky diode / Conception, fabrication et caractérisation de diodes Schottky planaires terahertz

Jenabi, Sarvenaz

January 2017

Dans cette thèse, les diodes Schottky pour des applications en ondes millimétriques et aux fréquences térahertz sont étudiées. Une méthodologie de conception et d'optimisation est proposée pour améliorer la performance de telles diodes. La conception et les simulations sont effectuées à l'aide d'un programme basé sur un modèle analytique. Les différentes méthodes de calcul de la fréquence de coupure de la diode sont définies, étudiées et classifiées selon les applications potentielles. En utilisant un modèle de diode générique et général, une nouvelle approche pour calculer la fréquence de coupure est suggérée pour les applications de mélangeur / multiplicateur. Cette approche permet d'évaluer la tension seuil avec une précision beaucoup plus grande et proche de la réalité. En outre, la conception d’une diode Schottky en tenant compte dès le départ l’application visée (détecteur direct, mélangeur ou multiplicateur) est étudiée. Cette thèse montre que l'ingénierie de la structure épitaxiale a un impact important lorsque l’on utilise une conception de diode basée sur l’application finale comme proposée. Un procédé de microfabrication a été entièrement développé et caractérisé. Une méthode de planarisation unique est introduite pour permettre de connecter la diode par des ponts à air en minimisant les effets parasites. Afin d'éviter une coûteuse lithographie par faisceau électronique, une anode en forme de T est produite en utilisant une technique de photolithographie. Ce procédé est fiable et répétitif, est de faible coût et offre une grande souplesse en matière de conception en plus de répondre au besoin d‘une production de masse, pour laquelle la lithographie par faisceau d’électrons n’est guère possible. Le procédé final nécessite simplement deux étapes de métallisation, nombre minimal possible que nous avons atteint. En raison des exigences de recuit du contact ohmique, il est impossible d’avoir moins de deux étapes de métallisation. Le processus de planarisation proposé repose sur l'utilisation de différents taux de gravure plasma de deux résines couramment utilisées. Pour les travaux réalisés dans cette thèse, une épitaxie GaAs HBT disponible au sein du laboratoire a été utilisée. Les résultats de caractérisation de diodes réalisés dérivés des mesures DC et RF sont rapportés et comparés avec les résultats de la simulation. Les résultats de mesure montrent une réduction significative de la capacité parasite de la diode à moins de 20% de sa capacité totale. Par conséquent, le procédé de conception et de fabrication de ce travail peut fournir des diodes qui peuvent fonctionner au-delà du térahertz avec des dimensions pour l’anode plus grandes que les diodes trouvées dans la littérature et qui peuvent donc être fabriquées uniquement par des techniques de photolithographie optique. / Abstract: In this thesis, Schottky diodes for millimeter waves and terahertz application are scrutinized. A design and optimization methodology is proposed to improve the diode performance. Design and simulations are performed by using an analytical model based code. Diode cut-off frequency calculation methods are studied and classified for different applications. Considering general diode equivalent circuit model, a new approach for calculating the cut-off frequency is suggested for mixer/multiplier applications. This approach provides cut-off much closer to its practical value. Also, the diode design based on its application, direct detector and mixer/multiplier, is studied. It is shown that the epitaxial structure engineering has impact on diode application based design. For diode realization a microfabrication process is developed. Unique planarization method is introduced which provides necessary substruction for the airbridges. In order to avoid expensive e-beam lithography, a T-shaped anode is produced by employing photolithography technique. This process is repeatable, reliable, low cost, gives high flexibility in design terms, and suitable for mass production. The final process merely requires two metallization steps which is minimum possible number due to annealing requirement of ohmic contact. The proposed planarization process is based on using different plasma etching rates of two common resists. In the diode fabrication an available GaAs HBT epitaxial wafer is used. The realized diode characterization results derived from DC and RF measurements are reported and compared with the simulation results. The measurement results showed significant reduction in parasitic capacitance of the diode to under twenty percent of its total capacitance. Therefore, the design and fabrication method of this work can provide diodes to operate over one terahertz with larger anode area (that can be produced by photolithography techniques).

Schottky diode

Terahertz

Micro-fabrication

Cut-off frequency

Intermittently Forced Vortex Rossby Waves

Cotto, Amaryllis

21 February 2012

Wavelike spiral asymmetries are an intriguing aspect of Tropical Cyclone dynamics. Previous work hypothesized that some of them are Vortex Rossby Waves propagating on the radial gradient of mean–flow relative vorticity. In the Intermittently Forced Vortex Rossby Wave theory, intermittent convection near the eyewall wind maximum excites them so that they propagate wave energy outward and converge angular momentum inward. The waves’ energy is absorbed as the perturbation vorticity becomes filamented near the outer critical radii where their Doppler–shifted frequencies and radial group velocities approaches zero. This process may initiate outer wind maxima by weakening the mean–flow just inward from the critical radius. The waves are confined to a relatively narrow annular waveguide because of their slow tangential phase velocity and the narrow interval between the Rossby wave cut–off frequency, where the radial wavenumber is locally zero, and the zero frequency, where it is locally infinite.

Vortex Rossby Waves

Vorticity

Wave Energy

Critical Radius

Cut-off Frequency

Tropical Cyclone

Streamfunction

Barotropic Non-divergent

Wavenumber 2 Forcing

Filtry vyšších řádů s proudovými zrcadly / Current mirror higher-order filters

Novotný, Matouš

January 2010

Submitted work engages in suggestion of frequency-selection filters with usage of more active elements of the MCMI (Multi-Output Current Mirror and inverter). The preamble of thesis is applied to theory of frequency-selection filters and possible usage of them. The projected circuit layouts with the active elements are discussed in terms of the impact of parasitic properties of the real models. The part of thesis is numerical suggestion of found solutions, their simulation in suitable program.

Finite Element Method Modeling Of Advanced Electronic Devices

Chen, Yupeng

01 January 2006

In this dissertation, we use finite element method together with other numerical techniques to study advanced electron devices. We study the radiation properties in electron waveguide structure with multi-step discontinuities and soft wall lateral confinement. Radiation mechanism and conditions are examined by numerical simulation of dispersion relations and transport properties. The study of geometry variations shows its significant impact on the radiation intensity and direction. In particular, the periodic corrugation structure exhibits strong directional radiation. This interesting feature may be useful to design a nano-scale transmitter, a communication device for future nano-scale system. Non-quasi-static effects in AC characteristics of carbon nanotube field-effect transistors are examined by solving a full time-dependent, open-boundary Schrödinger equation. The non-quasi-static characteristics, such as the finite channel charging time, and the dependence of small signal transconductance and gate capacitance on the frequency, are explored. The validity of the widely used quasi-static approximation is examined. The results show that the quasi-static approximation overestimates the transconductance and gate capacitance at high frequencies, but gives a more accurate value for the intrinsic cut-off frequency over a wide range of bias conditions. The influence of metal interconnect resistance on the performance of vertical and lateral power MOSFETs is studied. Vertical MOSFETs in a D2PAK and DirectFET package, and lateral MOSFETs in power IC and flip chip are investigated as the case studies. The impact of various layout patterns and material properties on RDS(on) will provide useful guidelines for practical vertical and lateral power MOSFETs design.

Finite Element Method

Electron Waveguides

Radiation

Carbon Nanotube Field-effect transistors

Non-quasi-static

Intrinsic cut-off frequency

Power MOSFETs

Metal Interconnect Resistance

Electrical and Computer Engineering

Electrical and Electronics

Engineering

Theoretical analysis of membrane properties underlying action potential phase-locking in noise-driven cells / Theoretische Analysis deren grundelgende Membraneigenschaften des Aktionspotential Phase-locking in Rauschengesteuerte Zelle

Öz, Pýnar

29 April 2011

No description available.

570 Biowissenschaften

Biologie

42.99 Biologie: Sonstiges

WD 700: Biocomputing {Biologie}

Návrh elektronicky rekonfigurovatelných filtračních struktur s moderními aktivními prvky / Design of electronically reconfigurable filtering structures with modern active elements

Prát, Marek

January 2018

The aim of master's thesis was design of electronically reconfigurable filters. Adjustability of pole frequency or quality factor is possible. First part of thesis deals with theoretical analysis of filters, their operation modes, design of frequency filters using Signal-Flow graph method and parasitic analysis. The next part describes active elements used in thesis. In a third part, three reconfigurable filters are described and designed and their simulations and parasitic analysis are made. Last part deals with filter design in EAGLE and experimental measurement.

Syntéza elektronicky rekonfigurovatelných kmitočtových filtrů / Synthesis of the electronically reconfigurable frequency filters

Michalička, Filip

January 2020

This diploma thesis deals with design of reconection-less electronically reconfigurable filter structures which have single input and single output using unconventional active elements, which have ability to adjust one of their parameter e.g. gain or transconductance. The first part describes basic parameters of frequency filters, the division of filters by frequency transfer response and used circuit elements, their operational modes, the principle of reconnection-less electronically reconfiguration and the circuit design method MUNV. Second part describes all active elements used in the proposal of filters, their properties and the implementation using existing transistor-level models. The third part contains the design of three reconnection-less electronically reconfigurable filters and the simulations results obtained from simulation programs OrCAD Capture and PSpice. The obtained results were compared with theoretical behaviour. This part also contains results of these analyses: sensitivity, parasitic, Monte Carlo and temperature to determine the behaviour in varied cases.