Studium elektromagnetických vln generovaných bleskovými výboji v širokém pásmu frekvencí / Investigation of lightning-generated elecromagnetic waves in a broad frequency range

Fišer, Jiří

January 2011

In this work I present a study dedicated to the penetration of whistler- mode waves to the ionosphere. An algorithm of automatic detection of whist- lers in spectrograms computed from the data measured on the DEMETER sa- tellite is described. A method of causative lightning detected by the EUCLID lightning detection network assignment to a detected whistlers is described. Results of statistical study dedicated to relationship between the detected whistlers and assigned causative lightning. Based on the proccessing of data from 364 passes of the DEMETER satellite over monitored area is shown, that mean whistler amplitude decreases with distance between the causative lightning, increses with causative lightning current and in the evening is ap- proximately three times higher than in the morning. A study dedicated to subprotonospheric whistlers is presented. We found, that subprotonospheric whistler causative lightnings currents are very high compared to that of usual 0+ whistlers.

Study on Whistler-mode Triggered Emissions in the Magnetosphere / 磁気圏におけるホイッスラーモード・トリガード放射の研究

Nogi, Takeshi

23 March 2023

京都大学 / 新制・課程博士 / 博士(工学) / 甲第24618号 / 工博第5124号 / 新制||工||1979(附属図書館) / 京都大学大学院工学研究科電気工学専攻 / (主査)教授 大村 善治, 教授 松尾 哲司, 教授 小嶋 浩嗣 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Plasma physics

Electromagnetics

Particle simulation

Triggered emission

Chorus waves

Wave-particle interaction

Whistler-mode waves

500

Study on Nonlinear Acceleration of Electrons by Oblique Whistler Mode Waves / 斜め伝搬ホイッスラーモード波による非線形電子加速に関する研究

Hsieh, Yikai

26 March 2018

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第21071号 / 工博第4435号 / 新制||工||1689(附属図書館) / 京都大学大学院工学研究科電気工学専攻 / (主査)教授 大村 善治, 教授 松尾 哲司, 准教授 小嶋 浩嗣 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Oblique whistler mode waves

Chorus waves

Relativistic electrons

Radiation belts

Wave-particle interactions

Gyroaveraging method

Test particle simulations

500

Interaction between Electromagnetic Waves and Localized Plasma Oscillations / Växelverkan mellan elektromagnetiska vågor och lokaliserade plasmaoscillationer

Hall, Jan-Ove

January 2004

<p>This thesis treats interaction between electromagnetic waves and localized plasma oscillations. Two specific physical systems are considered, namely artificially excited magnetic field-aligned irregularities (striations) and naturally excited lower hybrid solitary structures (LHSS). Striations are mainly density depletions of a few percent that are observed when a powerful electromagnetic wave, a pump wave, is launched into the ionosphere. The striations are formed by upper hybrid (UH) oscillations that are localized in the depletion where they are generated by the linear conversion of the pump field on the density gradients. However, the localization is not complete as the UH oscillation can convert to a propagating electromagnetic Z mode wave. This process, termed Z mode leakage, causes damping of the localized UH oscillation. The Z mode leakage is investigated and the theory predicts non-Lorentzian skewed shapes of the resonances for the emitted Z mode radiation. Further, the interaction between individual striations facilitated by the Z mode leakage is investigated. The LHSS are observed by spacecraft in the ionosphere and magnetosphere as localized waves in the lower hybrid (LH) frequency range that coincides with density cavities. The localized waves are immersed in non-localized wave activity. The excitation of localized waves with frequencies below LH frequency is modelled by scattering of electromagnetic magnetosonic (MS) waves off a preexisting density cavity. It is shown analytically that an incident MS wave with frequency less than the minimum LH frequency inside the cavity is focused to localized waves with left-handed rotating wave front. In addition, the theory is shown to be consistent with observations by the Freja satellite. For frequencies between the minimum LH frequency inside the cavity and the ambient LH frequency, the MS wave is instead mode converted and excites pressure driven LH oscillations. This process is studied in a simplified geometry.</p>

Space and plasma physics

space physics

plasma physics

radio waves

ionospheric modification

density depleations

field-aligned irregularities

lower hybrid solitary structures

lower hybrid cavities

Z mode waves

magnetosonic waves

scattering

mode conversion

Rymd- och plasmafysik

Space physics

Rymdfysik

Interaction between Electromagnetic Waves and Localized Plasma Oscillations / Växelverkan mellan elektromagnetiska vågor och lokaliserade plasmaoscillationer

Hall, Jan-Ove

January 2004

This thesis treats interaction between electromagnetic waves and localized plasma oscillations. Two specific physical systems are considered, namely artificially excited magnetic field-aligned irregularities (striations) and naturally excited lower hybrid solitary structures (LHSS). Striations are mainly density depletions of a few percent that are observed when a powerful electromagnetic wave, a pump wave, is launched into the ionosphere. The striations are formed by upper hybrid (UH) oscillations that are localized in the depletion where they are generated by the linear conversion of the pump field on the density gradients. However, the localization is not complete as the UH oscillation can convert to a propagating electromagnetic Z mode wave. This process, termed Z mode leakage, causes damping of the localized UH oscillation. The Z mode leakage is investigated and the theory predicts non-Lorentzian skewed shapes of the resonances for the emitted Z mode radiation. Further, the interaction between individual striations facilitated by the Z mode leakage is investigated. The LHSS are observed by spacecraft in the ionosphere and magnetosphere as localized waves in the lower hybrid (LH) frequency range that coincides with density cavities. The localized waves are immersed in non-localized wave activity. The excitation of localized waves with frequencies below LH frequency is modelled by scattering of electromagnetic magnetosonic (MS) waves off a preexisting density cavity. It is shown analytically that an incident MS wave with frequency less than the minimum LH frequency inside the cavity is focused to localized waves with left-handed rotating wave front. In addition, the theory is shown to be consistent with observations by the Freja satellite. For frequencies between the minimum LH frequency inside the cavity and the ambient LH frequency, the MS wave is instead mode converted and excites pressure driven LH oscillations. This process is studied in a simplified geometry.

Space and plasma physics

space physics

plasma physics

radio waves

ionospheric modification

density depleations

field-aligned irregularities

lower hybrid solitary structures

lower hybrid cavities

Z mode waves

magnetosonic waves

scattering

mode conversion

Rymd- och plasmafysik

Space physics

Rymdfysik