Från föhn till feu! : Esrange och den norrländska rymdverksamhetens tillkomsthistoria från sekelskiftet 1900 till 1966 / From föhn to feu! : The history of Esrange and the Northern Swedish spaceactivity from the turn of the century 1900 until 1966

Backman, Fredrick

January 2010

<p>This essay is about the origin, planning and establishment of the European Space Research Organisation's (ESRO) sounding rocket base Esrange outside Kiruna in Northern Sweden. Three main questions are examined. First I show there were not just scientific and technical but also political, economical as well as military reasons to build a European rocket base. Second, I scrutinize the reasons to choose Northern Sweden as the location for the rocket base. As it turns out, the main reasons were the favourable location of Northern Sweden within the aurora oval zone, the proximity of the Kiruna Geophysical Observatory, and the possibility to use a large, although not quite uninhabited, area where the launched rockets could crash. Finally, I examine the difficulty of talking about boundaries of various kinds, such as temporal, spatial and functional. The essay also provides a discussion on possible ways to continue research on this topic.</p>

Esrange

Kiruna

space

physics

geophysics

rocket

engineering

technology

ESRO

ESA

northern lights

aurora

observatory

research station

Vassijaure

Abisko

STS

history of science

polar

rocket base

Esrange

Kiruna

Norrland

rymdverksamhet

rymdfysik

geofysik

raket

teknologi

samer

ESRO

ESA

norrsken

aurora borealis

observatorium

forskningsstation

Vassijaure

Abisko

STS

vetenskapsstudier

vetenskapshistoria

polarforskning

norrskensforskning

raketbas

History of science

Vetenskapshistoria

History of science and ideas

Idé- o lärdomshistoria

History of technology

Teknikhistoria

History of technology and industry

Teknik- och industrihistoria

Technology and culture

Teknik och kultur

Other earth sciences

Övrig geovetenskap

Geophysics

Geofysik

Space engineering

Rymdteknik

Space physics

Rymdfysik

Från föhn till feu! : Esrange och den norrländska rymdverksamhetens tillkomsthistoria från sekelskiftet 1900 till 1966 / From föhn to feu! : The history of Esrange and the Northern Swedish spaceactivity from the turn of the century 1900 until 1966

Backman, Fredrick

January 2010

This essay is about the origin, planning and establishment of the European Space Research Organisation's (ESRO) sounding rocket base Esrange outside Kiruna in Northern Sweden. Three main questions are examined. First I show there were not just scientific and technical but also political, economical as well as military reasons to build a European rocket base. Second, I scrutinize the reasons to choose Northern Sweden as the location for the rocket base. As it turns out, the main reasons were the favourable location of Northern Sweden within the aurora oval zone, the proximity of the Kiruna Geophysical Observatory, and the possibility to use a large, although not quite uninhabited, area where the launched rockets could crash. Finally, I examine the difficulty of talking about boundaries of various kinds, such as temporal, spatial and functional. The essay also provides a discussion on possible ways to continue research on this topic.

Esrange

Kiruna

space

physics

geophysics

rocket

engineering

technology

ESRO

ESA

northern lights

aurora

observatory

research station

Vassijaure

Abisko

STS

history of science

polar

rocket base

Esrange

Kiruna

Norrland

rymdverksamhet

rymdfysik

geofysik

raket

teknologi

samer

ESRO

ESA

norrsken

aurora borealis

observatorium

forskningsstation

Vassijaure

Abisko

STS

vetenskapsstudier

vetenskapshistoria

polarforskning

norrskensforskning

raketbas

History of science

Vetenskapshistoria

History of science and ideas

Idé- o lärdomshistoria

History of technology

Teknikhistoria

History of technology and industry

Teknik- och industrihistoria

Technology and culture

Teknik och kultur

Other earth sciences

Övrig geovetenskap

Geophysics

Geofysik

Space engineering

Rymdteknik

Space physics

Rymdfysik

Solitary waves and enhanced incoherent scatter ion lines

Ekeberg, Jonas

January 2011

This thesis addresses solitary waves and their significance for auroral particle acceleration, coronal heating and incoherent scatter radar spectra. Solitary waves are formed due to a balance of nonlinear and dispersive effects. There are several nonlinearities present in ideal magnetohydrodynamics (MHD) and dispersion can be introduced by including theHall termin the generalised Ohm’s law. The resulting system of equations comprise the classical ideal MHD waves, whistlers, drift waves and solitarywave solutions. The latter reside in distinct regions of the phase space spanned by the speed and the angle (to the magnetic field) of the propagating wave. Within each region, qualitatively similar solitary structures are found. In the limit of neglected electron intertia, the solitary wave solutions are confined to two regions of slow and fast waves, respectively. The slow (fast) structures are associated with density compressions (rarefactions) and positive (negative) electric potentials. Such negative potentials are shown to accelerate electrons in the auroral region (solar corona) to tens (hundreds) of keV. The positive electric potentials could accelerate solar wind ions to velocities of 300–800 km/s. The structure widths perpendicular to themagnetic field are in the Earth’s magnetosphere (solar corona) of the order of 1–100 km (m). This thesis also addresses a type of incoherent scatter radar spectra, where the ion line exhibits a spectrally uniform power enhancement with the up- and downshifted shoulder and the spectral region in between enhanced simultaneously and equally. The power enhancements are one order of magnitude above the thermal level and are often localised to an altitude range of less than 20 km at or close to the ionospheric F region peak. The observations are well-described by a model of ion-acoustic solitary waves propagating transversely across the radar beam. Two cases of localised ion line enhancements are shown to occur in conjunction with auroral arcs drifting through the radar beam. The arc passages are associated with large gradients in ion temperature, which are shown to generate sufficiently high velocity shears to give rise to growing Kelvin-Helmholtz (K-H) instabilities. The observed ion line enhancements are interpreted in the light of the low-frequency turbulence associated with these instabilities. / Denna avhandling handlar om solitära vågor och deras roll i norrskensacceleration och koronaupphettning, samt deras signatur i spektra uppmätta med inkoherent spridningsradar. Solitära vågor bildas genom en balans mellan ickelinjära och dispersiva effekter. Ickelinjäriteter finns det gott om i ideal magnetohydrodynamik (MHD) och dispersion kan införas genom att inkludera Halltermen i den generaliserade Ohms lag. Det resulterande ekvationssystemet omfattar de klassiska vågorna inom ideal MHD, visslare, driftvågor och solitära vågor. De sistnämnda återfinns i väldefinierade områden i fasrummet som spänns upp av farten och vinkeln (mot magnetfältet) för den propagerande vågen. Inom varje sådant område återfinns kvalitativt lika solitära våglösningar. Om man försummar elektronernas tröghet begränsas de solitära våglösningarna till två områden med långsamma respektive snabba vågor. De långsamma (snabba) strukturerna är associerade med täthets-kompressioner (förtunningar) och positiva (negativa) elektriska potentialer. De negativa potentialerna visas kunna accelerera elektroner i norrskensområdet (solens korona) till tiotals (hundratals) keV medan de positiva potentialerna accelererar solvindsjoner till hastigheter på 300–800 km/s. Strukturbredderna vinkelrät mot magnetfältet är i jordens magnetosfär (solens korona) av storleksordningen 1–100 km (m). Denna avhandling tar även upp en typ av inkoherent spridningsradarspektra, där jonlinjen uppvisar en spektralt uniform förstärkning. Detta innebär att den upp- och nedskiftade skuldran och spektralbandet däremellan förstärks simultant och i lika hög grad. Effektförstärkningen är en storleksordning över den termiska nivån och är ofta lokaliserad till ett höjd-intervall av mindre än 20 km nära jonosfärens F-skiktstopp. Observationerna beskrivs väl av en modell med solitära vågor som propagerar transversellt genom radarstrålen. Två fall av lokaliserade jonlinjeförstärkningar visas sammanfalla med att norrskensbågar driver genom radarstrålen. I samband med bågarnas passage uppmäts stora gradienter i jontemperatur, vilket visas skapa tillräckligt kraftiga hastighetsskjuvningar för att Kelvin-Helmholtz-instabiliteter ska tillåtas växa. De observerade jonlinjeförstärkningarna tolkas i skenet av den lågfrekventa turbulensen som är kopplad till dessa instabiliteter.

plasma waves and instabilities

nonlinear phenomena

solitons and solitary waves

ionosphere

Sun: corona

incoherent scatter radar

MHD

plasmavågor och instabiliteter

ickelinjära fenomen

solitoner och solitära vågor

jonosfär

solen: korona

inkoherent spridningsradar

MHD

Geocosmophysics and plasma physics

Geokosmofysik och plasmafysik

Space physics

Rymdfysik

Plasma physics

Plasmafysik

Non-linear dynamics, chaos

Icke-linjär dynamik, kaos

Čerenkov emission of whistler waves by electron holes

Ouahioune, Nedjma

January 2021

Electron holes are positively charged nonlinear structures in which trapped electrons are supported by a positive electrostatic potential. These structure are regularly observed in space and laboratory plasmas by means of diverging bipolar electric field signatures. Recent observations and simulations have shown that fast moving electron holes can generate electromagnetic whistler waves via Čerenkov emission. The fast moving positive charge correspond to localised currents which can potentially excite waves. The aim of the project is to study both theoretically and numerically the properties leading to the Čerenkov emission of whistler waves by three-dimensional electron holes. In addition, efforts are dedicated to the derivation of a model providing the properties of emitted whistlers. The model is compared with the observational features of electromagnetic whistler waves generated by electron holes.

Čerenkov

Whistler waves

Resonance

Electron holes

Plasma

Physics

Space Physics

Astronomy

Plasma waves

Instabilities

Čerenkov

visslarvågor

elektromagnetiska vågor

resonans

electron holes

plasma fysisk

rymdfysisk

astronomi

plasma vågor

instabilitet

Fusion, Plasma and Space Physics

Fusion, plasma och rymdfysik

Astronomy, Astrophysics and Cosmology

Astronomi, astrofysik och kosmologi

Material migration in tokamaks: Studies of deposition processes and characterisation of dust particles

Weckmann, Armin

January 2015

Thermonuclear fusion may become an attractive future power source. The most promising of all fusion machine concepts is the tokamak. Despite decades of active research, still huge tasks remain before a fusion power plant can go online. One of these important tasks deals with the interaction between the fusion plasma and the reactor wall. This work focuses on how eroded wall materials of different origin and mass are transported in a tokamak device. Element transport can be examined by injection of certain species of unique and predetermined origin, so called tracers. Tracer experiments were conducted at the TEXTOR tokamak before its final shutdown. This offered an unique opportunity for studies of the wall and other internal components: For the first time it was possible to completely dismantle such a machine and analyse every single part of reactor wall, obtaining a detailed pattern of material migration. Main focus of this work is on the high-Z metals tungsten and molybdenum, which were introduced by WF6 and MoF6 injection into the TEXTOR tokamak in several material migration experiments. It is shown that Mo and W migrate in a similar way around the tokamak and that Mo can be used as tracer for W transport. It is further shown how other materials - medium-Z (Ni), low-Z (N-15 and F), fuel species (D) - migrate and get deposited. Finally, the outcome of dust sampling studies is discussed. It is shown that dust appearance and composition depends on origin, formation conditions and that it can originate even from remote systems like the NBI system. Furthermore, metal splashes and droplets have been found, some of them clearly indicating boiling processes. / <p>QC 20151203</p>

tokamak

fusion

plasma

material migration

particle transport

TEXTOR

PWI

plasma-wall interaction

plasma facing components

PFC

PFM

plasma facing materials

ALT limiter

MoF6

tracer experiment

molybdenum hexafluoride

future energy source

fuel retention

deuterium retention

Fusion, Plasma and Space Physics

Fusion, plasma och rymdfysik