Topics in the physics of underdamped Josephson systems

Tornes, Ivan Edward

15 March 2006

No description available.

Physics, Condensed Matter

Josephson junctions

Multiphoton transitions

Rabi Oscillations

Qubits

Self induced resonant steps

Soliton

Vortex Fractionalization

Zigzag ladder

Analog and Digital Approaches to UWB Narrowband Interference Cancellation

Omid, Abedi

02 October 2012

Ultra wide band (UWB) is an extremely promising wireless technology for researchers and industrials. One of the most interesting is its high data rate and fading robustness due to selective frequency fading. However, beside such advantages, UWB system performance is highly affected by existing narrowband interference (NBI), undesired UWB signals and tone/multi-tone noises. For this reason, research about NBI cancellation is still a challenge to improve the system performance vs. receiver complexity, power consumption, linearity, etc. In this work, the two major receiver sections, i.e., analog (radiofrequency or RF) and digital (digital signal processing or DSP), were considered and new techniques proposed to reduce circuit complexity and power consumption, while improving signal parameters. In the RF section, different multiband UWB low-noise amplifier key design parameters were investigated like circuit configuration, input matching and desired/undesired frequency band filtering, highlighting the most suitable filtering package for efficient UWB NBI cancellation. In the DSP section, due to pulse transmitter signals, different issues like modulation type and level, pulse variety, shape and color noise/tone noise assumptions, were addressed for efficient NBI cancelation. A comparison was performed in terms of bit-error rate, signal-to-interference ratio, signal-to-noise ratio, and channel capacity to highlight the most suitable parameters for efficient DSP design. The optimum number of filters that allows the filter bandwidth to be reduced by following the required low sampling rate and thus improving the system bit error rate was also investigated.

Passive Filter

ZigZag

GPS

LNA

UWB

WLAN

NBI

RF

CG

CS

Gm boosting

PAM

PPM

RAKE receiver

BER

data rate

Channel Capacity

PSD

Pulse shape

Hermite

Filter bank

A Beer Party and Watermelon: The Archaeology of Community and Resistance at CCC Camp Zigzag, Company 928, Zigzag, Oregon, 1933-1942

Tuck, Janna Beth

01 January 2010

In March 1933, the administration of United States President Franklin D. Roosevelt initiated a national relief program aimed at alleviating the disastrous effects ofthe Great Depression. The Civilian Conservation Corp (CCC) began as one of these programs designed to employ young men from all over the country and put them "back to work". The CCC provided these young men with training, a monthly stipend, and basic supplies such as food, clothing, and accommodations. After 1942, CCC camps were closed and many of these sites were abandoned or destroyed, leaving little historical documentation as to the experiences ofthe people involved. This project revolves around the archaeological investigations and data recovery of a CCC camp that was in operation from 1933-1942 in Zigzag, Oregon. This research analyzes the remains of the camp in order to gain further knowledge about this important period in American history, and more specifically, Oregon history. In assessing the material culture left behind, combined with the historical documents and oral history interviews, the goal of this project was to expand the historical and archaeological narrative of the CCC experience. More specifically, the aim of this research was to reveal the unwritten record of CCC camp life in a pivotal period of American history. The results of the historical archaeological research indicates that Camp Zigzag represents a community that participated in resistance related activities, such as drinking alcohol on camp property, but one that also adhered to the regulations of camp policy. Military-style order and training permeated even the surrounding architectural environment. The rituals of daily life in the structured order of the camp appear to have developed and formulated a strong sense of cohesion among the men. However, resistance-related items, such as alcohol bottles, suggest that Camp Zigzag enrollees resisted the authoritarian dynamic of the camp. Social drinking would have provided the men with a sense of solidarity and commonality that would have been maintained beyond the ideals of camp uniformity. This communal familiarity may have influenced the men's behaviour in daily camp routines, rituals, and work. Overall, the archaeological evidence depicts the Camp Zigzag community as united through the bonds of formality and in its resistance to it. Camp Zigzag offered a unique and unusually expansive window into not only the history of Oregon State, but into the history of our nation as a whole. The camp's archaeological assemblage remains as an important learning tool and its value far exceeds the humble nature of its material contents. It is a collection of untold stories representing the lives of young men and their families at a tumultuous turning point in American history.

Or.) -- History

Social and Cultural Anthropology

United States History

Dynamique de l'appariement tourbillonnaire en milieu stratifie et stratifie tournant

Othéguy, Pantxika

10 October 2005

Une des caractéristiques les plus remarquables des fluides géophysiques est la présence de stratification, c'est-à dire d'un gradient vertical de densité, qui induit une structure en couches horizontales. Lindborg (1999) et Billant & Chomaz (2001) ont proposé que la dynamique au sein de ces couches est tridimensionnelle et non bidimensionnelle comme cela était supposé auparavant. Les derniers ont aussi proposé un mécanisme de sélection de l' épaisseur de ces couches : l'instabilité zigzag qu'ils ont observée dans le cas particulier d'une paire de tourbillons contra-rotatifs. Cependant, les paires de tourbillons contra-rotatifs sont rarement observées dans l'océan et l'atmosphère contrairement aux couples de tourbillons co-rotatifs. De plus, l'appariement de tourbillons co-rotatifs est le processus dominant en turbulence bidimensionnelle responsable du transfert d'énergie des petites vers les grandes échelles. Au cours de ma thèse, je me suis donc intéressée à la dynamique de tourbillons co-rotatifs verticaux dans un fluide stratifié. Une instabilité associée au même effet physique que l'instabilité zigzag a été découverte. Elle décorrèle verticalement l'appariement de ces tourbillons, suggérant que l' instabilité zigzag est générique et affecte tout écoulement stratifié constitué de plus d'un tourbillon. L'analyse numérique de stabilité linéaire a montré que cette instabilité consiste en un mode déplacement et sélectionne une échelle verticale proportionnelle à l' échelle de flottabilité définie comme Fb, où F est le nombre de Froude horizontal et b la distance entre les deux tourbillons. Son taux de croissance est proportionnel au champ d'étirement créé par un tourbillon sur son compagnon. L'origine physique de cette instabilité a été identifiée grâce à une étude asymptotique : elle provient du couplage entre le mode de déplacement d'un tourbillon et le champ d'étirement généré par l'autre tourbillon. Observations expérimentales et Simulations Numériques Directes montrent que les non-linéarités n'inhibent pas le développement de l'instabilité zigzag qui entraîne bien une décorrelation verticale de l'écoulement selon une échelle proportionnelle à l'échelle de flottabilité. Enfin, l'effet de la rotation de la Terre a été étudié et nous avons montré que l'instabilité Zigzag reste active en présence de la force de Coriolis. Son taux de croissance est indépendant du taux de rotation. En régime fortement tournant, on retrouve l'approximation quasi-géostrophique : l'instabilité zigzag est similaire à l'instabilité ''tall-column'' découverte par Dritschel & de la Torre Juàrez (1996) et la longueur d'onde la plus instable est proportionnelle à Fb/Ro, où Ro est le nombre de Rossby. Cette instabilité affecte donc les écoulements géophysiques sur une large gamme d' échelles aussi bien dans l'océan que dans l'atmosphère.

[SPI:OTHER] Engineering Sciences/Other

tourbillons

instabilité

stratification

fluides géophysiques

zigzag

appariement

tourbillons corotatifs

Analog and Digital Approaches to UWB Narrowband Interference Cancellation

Omid, Abedi

02 October 2012

Ultra wide band (UWB) is an extremely promising wireless technology for researchers and industrials. One of the most interesting is its high data rate and fading robustness due to selective frequency fading. However, beside such advantages, UWB system performance is highly affected by existing narrowband interference (NBI), undesired UWB signals and tone/multi-tone noises. For this reason, research about NBI cancellation is still a challenge to improve the system performance vs. receiver complexity, power consumption, linearity, etc. In this work, the two major receiver sections, i.e., analog (radiofrequency or RF) and digital (digital signal processing or DSP), were considered and new techniques proposed to reduce circuit complexity and power consumption, while improving signal parameters. In the RF section, different multiband UWB low-noise amplifier key design parameters were investigated like circuit configuration, input matching and desired/undesired frequency band filtering, highlighting the most suitable filtering package for efficient UWB NBI cancellation. In the DSP section, due to pulse transmitter signals, different issues like modulation type and level, pulse variety, shape and color noise/tone noise assumptions, were addressed for efficient NBI cancelation. A comparison was performed in terms of bit-error rate, signal-to-interference ratio, signal-to-noise ratio, and channel capacity to highlight the most suitable parameters for efficient DSP design. The optimum number of filters that allows the filter bandwidth to be reduced by following the required low sampling rate and thus improving the system bit error rate was also investigated.

Passive Filter

ZigZag

GPS

LNA

UWB

WLAN

NBI

RF

CG

CS

Gm boosting

PAM

PPM

RAKE receiver

BER

data rate

Channel Capacity

PSD

Pulse shape

Hermite

Filter bank

Analog and Digital Approaches to UWB Narrowband Interference Cancellation

Omid, Abedi

January 2012

Ultra wide band (UWB) is an extremely promising wireless technology for researchers and industrials. One of the most interesting is its high data rate and fading robustness due to selective frequency fading. However, beside such advantages, UWB system performance is highly affected by existing narrowband interference (NBI), undesired UWB signals and tone/multi-tone noises. For this reason, research about NBI cancellation is still a challenge to improve the system performance vs. receiver complexity, power consumption, linearity, etc. In this work, the two major receiver sections, i.e., analog (radiofrequency or RF) and digital (digital signal processing or DSP), were considered and new techniques proposed to reduce circuit complexity and power consumption, while improving signal parameters. In the RF section, different multiband UWB low-noise amplifier key design parameters were investigated like circuit configuration, input matching and desired/undesired frequency band filtering, highlighting the most suitable filtering package for efficient UWB NBI cancellation. In the DSP section, due to pulse transmitter signals, different issues like modulation type and level, pulse variety, shape and color noise/tone noise assumptions, were addressed for efficient NBI cancelation. A comparison was performed in terms of bit-error rate, signal-to-interference ratio, signal-to-noise ratio, and channel capacity to highlight the most suitable parameters for efficient DSP design. The optimum number of filters that allows the filter bandwidth to be reduced by following the required low sampling rate and thus improving the system bit error rate was also investigated.

Passive Filter

ZigZag

GPS

LNA

UWB

WLAN

NBI

RF

CG

CS

Gm boosting

PAM

PPM

RAKE receiver

BER

data rate

Channel Capacity

PSD

Pulse shape

Hermite

Filter bank

Turbulence en milieu stratifié, étude des mécanismes de la cascade

Augier, Pierre

21 October 2011

La turbulence fortement influencée par une stratification stable en densité est étudiée expérimentalement, numériquement et théoriquement. Ce type de turbulence est rencontré dans l'atmosphère et les océans dans une gamme d'échelles intermédiaires où la force de Coriolis est négligeable. Dans une première partie, la transition à la turbulence d'un écoulement simple : une paire de tourbillons colonnaires contra-rotatifs est étudiée. Des Simulations Numériques Directes (DNS) montrent que lorsque la dissipation est suffisamment faible, deux instabilités secondaires, de cisaillement et gravitationnelle, se développent après l'instabilité zigzag. La taille caractéristique des tourbillons de Kelvin-Helmholtz est de l'ordre de l'échelle de flottabilité. Ces deux instabilités mènent à une transition à la turbulence qui présente des spectres anisotropes similaires à ceux associés à la turbulence stratifiée pleinement développée. Pour la première fois, un retour à l'isotropie est observé pour des échelles inférieures à l'échelle d'Ozmidov. Dans une deuxième partie, un écoulement pleinement turbulent forcé par plusieurs générateurs de dipoles est étudié. Les expériences aux plus grands nombres de Reynolds de flottabilité ont permis pour la première fois de quasiment atteindre le régime de turbulence fortement stratifié. Les simulations numériques forcées dans l'espace physique avec le même type de forcage ont permis de reproduire les résultats expérimentaux et de les étendre aux grands nombres de Reynolds de flottabilité. Elles révèlent que la plus grande échelle des retournements est de l'ordre de l'échelle de flottabilité. Enfin, une généralisation de la loi des 4/5 de Kolmogorov est proposée pour la turbulence stratifiée.

turbulence stratifiée

turbulence anisotrope

atmosphère

océan

DNS

PIV