Estudo de um sistema bidimensional formado por rede de antipontos para a engenharia de dispositivos em spintrônica / Study of a two-dimensional system formed by antidot lattices for engineering of spintronic devices

Julio César Bolaños Pomayna

12 April 2013

Neste trabalho, apresentamos estudos sobre o magnetotransporte em um sistema de bicamadas com uma rede de antipontos triangulares em campos magnéticos baixos sob a aplicação de campos elétricos externos, que são produzidos por voltagens de porta. A bicamada é feita em poços quânticos largos (wide quantum well) de alta densidade eletrônica, formado em heteroestruturas semicondutoras de AlxGa1xAs=GaAs. Oscila- ções magneto-inter-sub-banda (MIS) são observadas em poços quânticos largos de alta densidade eletrônica com duas sub-bandas ocupadas. Estas são originadas pelo espalhamento inter-sub-bandas e tem um máximo para campos magnéticos B que satisfazem a condição de alinhamento entre os leques dos níveis de Landau de cada sub-banda. Oscila- ções de comensurabilidade são observadas na magnetoresistência que é sensível ao arranjo do potencial dos antipontos. A aplicação de campos elétricos faz diminuir o número de oscilações na magnetoresistência para campos magnéticos compreendidos entre 0; 1T e 0; 4T, observando-se uma transição das oscilações MIS aos efeitos de comensurabilidade. Aplicando voltagens de porta podemos variar a amplitude do potencial dos antipontos. / In this work, we present studying about magnetotransport in a bilayer system with triangular antidot lattices in low magnetic elds under the application of external electric eld. The bilayer forms inside a wide quantum well of high electron density in semiconductor heterostructures formed by AlxGa1xAs=GaAs. Magneto-inter-subband (MIS) oscillations are observed in a wide quantum wells of high electron density with two subbands occupied, and they are caused by intersubband scattering and have a maximum for a magnetic eld B that satises the alignment condition between the staircase of Landau level. Commensurability oscillations are observed in magnetoresistance, which is sensitive to the potential of antidot arrangements. The application of electric elds decrease the number of oscillations in the magnetoresistance for magnetic elds between 0; 1T and 0:4T, showing a transition of MIS oscillations to commensurability oscillations. We varied the amplitude of the potential of the antidots applying dierent gate voltages.

Campo magnético

Estrutura eletônica

Poços quânticos

Rede de antipontos

Spintrônica

Antidot lattices

Magnetic field

Quantum well. electronic structure

Spintronic

Electrical Transport in Si:P and Ge:P δ-doped Systems

Shamin, Saquib

January 2015

Doped semiconductor systems have for decades provided an excellent platform to study novel concepts in solid state physics such as quantum hall effect, metal-to-insulator transition (MIT), weak localization and many body interaction effects. Doped Si, in particular and doped Ge has been studied extensively to study MIT as a function of dopant concentration or uniaxial stress. Spin transport phenomena have also been probed in bulk doped Si. All the previous studies involved bulk doped semiconductors where the dopants are spread through the bulk of the material. However spatial confinement of dopants in one or more dimensions may lead to a range of exotic quantum phenomena such as an absence of Anderson localization in one and two dimensions, hole-mediated (Nagaoka) ferromagnetism and new modes of quantum transport, when the Fermi energy lies at or close to centre of the band. Since many of these phenomena are inherent to lower dimensions, it has been hard to observe these experimentally in bulk doped crystals of Si and Ge. Recent advances in the monolayer doping techniques with atoms that closely pack on a surface, has made it possible to design a new class of 2D electron systems (2DES) in elemental semiconductors, such as Si and Ge, where the dopant (P) atoms are confined within a few atomic planes. The uniqueness of these systems lies not merely in the planar doping profile in bulk semiconductors that allow versatile designs of nanodevices, such as 1D wires, tunnel gaps and quantum dots, but also that it is now possible to study the interplay of wavefunction overlap and commensurability effects in 2D with unprecedented control. From an application perspective as well these systems are technologically important as they are aimed at being the building blocks of a solid state quantum computer. This thesis deals with investigating the electrical transport properties, both average (resistance) and dynamic (noise) of doped semiconductor systems in 2D delta layers, 1D wires and 0D quantum dots. We find that the 2D δ-layers shows suppressed low frequency noise and the Hooge parameter of delta doped Si is about five to six orders of magnitude lower when compared to bulk doped Si in metallic regime. At low temperatures, the noise arises in these systems due to universal conductance fluctuations. For 1D wires as well we find that the Hooge parameter is one of the lowest among various 1D systems including carbon nanotubes. We identify that charge traps in the Si/SiO2 are responsible for causing noise in δ-doped systems. Then we study the noise and transport in 2D delta layers as a function of doping density (and hence carrier density and interaction). Weak localization corrections to the conductivity and the universal conductance fluctuations were both found to decrease rapidly with decreasing doping in the Si:P and Ge:P delta layers, suggesting a spontaneous breaking of time reversal symmetry driven by strong Coulomb interactions. At low doping density we observe metal-like dependence of resistance on temperature at low temperatures, raising the possibility of a metallic ground state in 2D at 0 K in doped semiconductors. Finally we probe the low density devices (with broken time reversal symmetry) using superconducting Al as ohmic contacts. Anomalous increase in resistance below the superconducting transition temperature of Al and magnetoresistance with a sharp peak at 0 T is observed. Additionally we find that when the Al is superconducting, there exists a non-local resistance in low doped devices.

Semi Conductor Systems

Solid State Physics

Metal-to-insulator Transition (MIT)

Condensed Matter Solids Physics

P δ-layers

Si:P

δ-layers

Ge:P

Annealed Silver

Silicon and Germanium

δ-doped Si

Antidot Lattices

Physics

Svenska polisers attityder & kunskap om naloxon i polisiärt arbete : En kvantitativ studie baserad på Teorin om Planerat Beteende enligt OOAS, OOKS & NaRRC-B

Magnusson, Tobias, Molin, Jens

January 2023

Accidental drug poisoning has tripled in Sweden since the start of the 21st century, and statistically the country has had one of the highest overdose death rates in Europe. To reverse an opioid overdose, which is the main cause of drug related death, the antidote naloxone has the capacity of breaking the effect, and it is widely recommended as a safe drug with limited side effects. Police forces around the world have started to use naloxone and there is proven connection between its introduction and a reduced number of drug related deaths. However, Swedish police has not started to use or, as far as we know, investigate use of naloxone despite proven benefits. Since police sometimes are the first to arrive at the scene of an overdose, naloxone in a police context is important to study. This survey had its origin in the Theory of Planned Behavior, in accordance with the research instruments Opioid Overdose Knowledge Scale (OOKS), Opioid Overdose Attitude Scale (OOAS) and Naloxone-Related Risk Compensation Beliefs (NaRRC-B). This quantitative study had the purpose to measure and create knowledge about Swedish police officers' attitudes towards introducing and administering naloxone in police work, as well as their general knowledge regarding the antidote. The participants agreed that Swedish police officers should be equipped with naloxone to be able to save more lives (mean value = 3,9). The demonstrated benefits significantly outweigh the disadvantages of a possible implementation of naloxone within the Swedish police. Hence, it is essential that the Swedish Police Authority further investigates whether the use of naloxone can be a new working method to save more lives.

Naloxone

Narcan

Opioid overdose

Life-saving

Attitudes

Knowledge

Police

Law enforcement

Sweden.

Naloxon

Respinal

Nyxoid

Opioidöverdos

Antidot

Motmedel

Rädda liv

Attityder

Kunskap

Polis

Svensk polis.

Övrig annan samhällsvetenskap

Photo-magnonics in two-dimensional antidot lattices

Lenk, Benjamin

12 December 2012

No description available.

530 Physik

Physics

Magnonik

magnonische Kristalle

Metamaterial

Lochgitter

TRMOKE

fs-Laser

Pump-Abfrage

Population

Anregung

Bandstruktur

Spinwellen

Magnonen

Blochwellen

lokalisierte Moden

Nickel

CoFeB

magnonics

magnonic crystal

metamaterial

antidot lattice

TRMOKE

fs-laser

pump-probe

population

excitation

band structure

spin wave

magnon

Bloch wave

localized modes

nickel

CoFeB

33.16

33.75

Relevanz der Antidotagabe für das notärztliche präklinische Management von Vergiftungen unter Berücksichtigung der Bremer Liste - eine Analyse von 633 Fällen / Relevance of medically given antidotes in emergency prehospital management of intoxications considering the Bremer Liste - an analysis of 633 cases

Schmidt, Melanie Julia

29 June 2017

No description available.

610

Bremer Liste

Intoxikation

Vergiftung

Notfall

Aktivkohle

Naloxon

4-DMAP

Toloniumchlorid

Atropin

präklinisch

notarztbesetzes Rettungsmittel

notärtzliche präklinische Therapie

Empfehlungen der Bremer Liste

Notarzt

Giftinformationszentrum

Giftnotruf

Antidot

Bremer Liste

intoxication

emergency

activated charcoal

naloxone

4-DMAP

tolonium chloride

atropine

prehospital

ambulance

emergency prehospital therapy

recommendations of the Bremer Liste

ambulance doctors

poisons centre

antidote