Relevant bibliographies by topics / Schumann resonance

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Schumann resonance'

Author: Grafiati
Published: 6 September 2023

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Journal articles on the topic "Schumann resonance"

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Liu, Jinlai, Jianping Huang, Zhong Li, Zhengyu Zhao, Zhima Zeren, Xuhui Shen, and Qiao Wang. "Recent Advances and Challenges in Schumann Resonance Observations and Research." Remote Sensing 15, no. 14 (July 15, 2023): 3557. http://dx.doi.org/10.3390/rs15143557.

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The theoretical development of Schumann Resonances has spanned more than a century as a form of global natural electromagnetic resonances. In recent years, with the development of electromagnetic detection technology and the improvement in digital processing capabilities, the connection between Schumann Resonances and natural phenomena, such as lightning, earthquakes, and Earth’s climate, has been experimentally and theoretically demonstrated. This article is a review of the relevant literature on Schumann Resonance observation experiments, theoretical research over the years, and a prospect based on space-based observations. We start with the theoretical background and the main content on Schumann Resonances. Then, observations and the identification of Schumann Resonance signals based on ground and satellite data are introduced. The research and related applications of Schumann Resonances signals are summarized in terms of lightning, earthquakes, and atmosphere. Finally, the paper presents a brief study of Schumann Resonances based on the China Seismo-Electromagnetic Satellite (CSES) and preliminary ideas about how to improve the identification and application of space-based Schumann Resonances signals.
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Cao, Bing Xia, and Xiao Lin Qiao. "Schumann Resonance Measurement Based on Nonlinear Interaction." Key Engineering Materials 439-440 (June 2010): 1294–99. http://dx.doi.org/10.4028/www.scientific.net/kem.439-440.1294.

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Schumann Resonance relates with global temperature variations, new geophysics phenomena in the low ionosphere and short-term earthquake prediction etc. In this paper based on the nonlinear modulation model of high frequency and extreme-low frequency electromagnetic waves in low ionosphere, the Schumann Resonance observing is researched. Taking the fair weather electric field in account, the cross modulation index was 4.2×10-4. At the first Schumann Resonance observatory of China, the first 4 peaks of Schumann Resonance respectively at 7, 14, 20, 26Hz were obtained in demodulation spectra of the high frequency time service signals. The parameter characteristics of Schumann Resonance in the low ionosphere were analyzed under the geographical condition of middle latitude area. The feasibility of Schumann Resonance measurement by demodulating the spectra of HF has been verified. The non-linearity between Schumann Resonance and very low frequency signals also was discussed.
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Silagadze, Z. K. "Schumann resonance transients and the search for gravitational waves." Modern Physics Letters A 33, no. 05 (February 20, 2018): 1850023. http://dx.doi.org/10.1142/s0217732318500232.

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Schumann resonance transients which propagate around the globe can potentially generate a correlated background in widely separated gravitational-wave detectors. We show that due to the distribution of lightning hotspots around the globe, these transients have characteristic time lags, and this feature can be useful to further suppress such a background, especially in searches of the stochastic gravitational-wave background. A brief review of the corresponding literature on Schumann resonances and lightnings is also given.
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Ando, Yoshiaki, and Masashi Hayakawa. "Recent Studies on Schumann Resonance." IEEJ Transactions on Fundamentals and Materials 126, no. 1 (2006): 28–30. http://dx.doi.org/10.1541/ieejfms.126.28.

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Hayakawa, M., K. Ohta, A. P. Nickolaenko, and Y. Ando. "Anomalous effect in Schumann resonance phenomena observed in Japan, possibly associated with the Chi-chi earthquake in Taiwan." Annales Geophysicae 23, no. 4 (June 3, 2005): 1335–46. http://dx.doi.org/10.5194/angeo-23-1335-2005.

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Abstract. The Schumann resonance phenomenon has been monitored at Nakatsugawa (near Nagoya) in Japan since the beginning of 1999, and due to the occurance of a severe earthquake (so-called Chi-chi earthquake) on 21 September 1999 in Taiwan we have examined our Schumann resonance data at Nakatsugawa during the entire year of 1999. We have found a very anomalous effect in the Schumann resonance, possibly associated with two large land earthquakes (one is the Chi-chi earthquake and another one on 2 November 1999 (Chia-yi earthquake) with a magnitude again greater than 6.0). Conspicuous effects are observed for the larger Chi-chi earthquake, so that we summarize the characteristics for this event. The anomaly is characterized mainly by the unusual increase in amplitude of the fourth Schumann resonance mode and a significant frequency shift of its peak frequency (~1.0Hz) from the conventional value on the By magnetic field component which is sensitive to the waves propagating in the NS meridian plane. Anomalous Schumann resonance signals appeared from about one week to a few days before the main shock. Secondly, the goniometric estimation of the arrival angle of the anomalous signal is found to coincide with the Taiwan azimuth (the unresolved dual direction indicates toward South America). Also, the pulsed signals, such as the Q-bursts, were simultaneously observed with the "carrier" frequency around the peak frequency of the fourth Schumann resonance mode. The anomaly for the second event for the Chia-yi earthquake on 2 November had much in common. But, most likely due to a small magnitude, the anomaly appears one day before and lasts until one day after the main shock, with the enhancement at the fourth Schumann resonance mode being smaller in amplitude than the case of the Chi-chi earthquake. Yet, the other characteristics, including the goniometric direction finding result, frequency shift, etc., are nearly the same. Although the emphasis of the present study is made on experimental aspects, a possible generation mechanism for this anomaly is discussed in terms of the ELF radio wave scattered by a conducting disturbance, which is likely to take place in the middle atmosphere over Taiwan. Model computations show that the South American thunderstorms (Amazon basin) play the leading role in maintaining radio signals, leading to the anomaly in the Schumann resonance.
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Atsuta, S., T. Ogawa, S. Yamaguchi, K. Hayama, A. Araya, N. Kanda, O. Miyakawa, et al. "Measurement of Schumann Resonance at Kamioka." Journal of Physics: Conference Series 716 (May 2016): 012020. http://dx.doi.org/10.1088/1742-6596/716/1/012020.

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Nickolaenko, A. P. "Modern aspects of Schumann resonance studies." Journal of Atmospheric and Solar-Terrestrial Physics 59, no. 7 (May 1997): 805–16. http://dx.doi.org/10.1016/s1364-6826(96)00059-4.

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Labendz, Daniel. "Investigation of Schumann resonance polarization parameters." Journal of Atmospheric and Solar-Terrestrial Physics 60, no. 18 (December 1998): 1779–89. http://dx.doi.org/10.1016/s1364-6826(98)00152-7.

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Sekiguchi, M., M. Hayakawa, A. P. Nickolaenko, and Y. Hobara. "Evidence on a link between the intensity of Schumann resonance and global surface temperature." Annales Geophysicae 24, no. 7 (August 9, 2006): 1809–17. http://dx.doi.org/10.5194/angeo-24-1809-2006.

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Abstract. A correlation is investigated between the intensity of the global electromagnetic oscillations (Schumann resonance) with the planetary surface temperature. The electromagnetic signal was monitored at Moshiri (Japan), and temperature data were taken from surface meteorological observations. The series covers the period from November 1998 to May 2002. The Schumann resonance intensity is found to vary coherently with the global ground temperature in the latitude interval from 45° S to 45° N: the relevant cross-correlation coefficient reaches the value of 0.9. It slightly increases when the high-latitude temperature is incorporated. Correspondence among the data decreases when we reduce the latitude interval, which indicates the important role of the middle-latitude lightning in the Schumann resonance oscillations. We apply the principal component (or singular spectral) analysis to the electromagnetic and temperature records to extract annual, semiannual, and interannual variations. The principal component analysis (PCA) clarifies the links between electromagnetic records and meteorological data.
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Chand, R., M. Israil, and J. Rai. "Schumann resonance frequency variations observed in magnetotelluric data recorded from Garhwal Himalayan region India." Annales Geophysicae 27, no. 9 (September 23, 2009): 3497–507. http://dx.doi.org/10.5194/angeo-27-3497-2009.

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Abstract. Schumann resonance (SR) frequency variation has been studied using Magnetotelluric (MT) data recorded in one of the world's toughest and generally inaccessible Himalayan terrain for the first time in the author's knowledge. The magnetotelluric data, in the form of orthogonal time varying electric and magnetic field components (Ex, Ey, Bx and By), recorded during 10 March–23 May 2006, in the Himalayan region, India, at elevations between 1228–2747 m above mean sea level (amsl), were used to study the SR frequency variation. Electromagnetic field components, in the form of time series, were recorded at 64 Hz sampling frequency at a site located away from the cultural noise. Spectral analysis of time series data, at a frequency resolution of 0.03 Hz, has been performed using Fast Fourier Transform (FFT) algorithm. Spectral stabilization in three Schumann resonance modes is achieved by averaging the power spectral magnitude of 32 data segments, each with 2048 sample data. Amplitude variation in the Schumann resonance frequency associated with day-night, sunrise and terminator effect was observed. Average diurnal variation in the first three Schumann resonance frequencies associated with magnetic field components is presented. The maximum frequency variation of about 0.3, 0.4 and 0.7 Hz was observed in the first, second and third mode, respectively. The frequency variations observed in electric and magnetic field components also show phase shift and varying attenuation. The SR frequency variation has been used to define the ionospheric electron density variation in the Himalayan region, India.
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Dissertations / Theses on the topic "Schumann resonance"

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Blasch, Kyle William. "Analysis of the Earth's Schumann resonance." Thesis, Massachusetts Institute of Technology, 1994. http://hdl.handle.net/1721.1/12122.

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Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences, 1994.
Includes bibliographical references (p. [193]-[198]).
by Kyle William Blasch.
M.S.
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Macauslan, John. "Schumann's music and Hoffmann's fictions." Thesis, University of Manchester, 2014. https://www.research.manchester.ac.uk/portal/en/theses/schumanns-music-and-hoffmanns-fictions(6204c093-4ed6-44c9-b992-08c19f3060e9).html.

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This thesis interprets four of Schumann’s works in the light of the Hoffmann fictions with which they seem to be associated. Unlike previous studies, it deals with each of the four works, treating them as aesthetic entities enhanced by literary relationships that are not primarily programmatic, nor primarily a matter of formal parallels. Each work emerges both in a new light and as it always was. Carnaval (1834-37) appears as a dizzying comedy of theatrical vignettes and character, in the spirit of the German literary understanding of Italian carnival (including in Hoffmann), and Fantasiestücke (1837-38) as a humorous sequence of dream images, resonating with literary tales of the artist’s development, not least those in Hoffmann’s Fantasiestücke. Kreisleriana (1838), a finished masterpiece, suggests improvisations on melodic fragments appearing also in popular tunes used both in trivial variation sets and in Bach’s Goldberg Variations – which figure in Hoffmann’s Kreisleriana as opposed emblems of the philistine and the profound. Nachtstücke (1839-40) creates from plain rondos a paradoxically unsettled set, expressive of profound mental disturbances explored by Hoffmann’s book of that name. I bring out in each work previously unexamined patterns of melody, tonality, metre, sonority and form, showing how these become threads expressive of drama, emotion or symbolism. Unusually, I do not take Schumann’s approach over the 1830s as static: increasingly powerful musical means gave the music greater independence from supporting words, and what Schumann called ‘poetic’ threads increasingly coincide with core musical processes. Equally unusually, I describe those processes as resonating simultaneously with Schumann’s titles, with his culture including Hoffmann, and with his concerns around the time of composition as documented in his letters, criticism, diaries and Mottosammlung. Unlike previous work the thesis treats its subject consistently at three levels. My approach to the interpretation of the individual works at the first level is consonant with Schumann’s aesthetics as described at the second: there I focus more sharply than previous treatments on his stated view that musical works can ‘express’ ‘remote interests’ including literature, and on how he thought that possible – points that, given sensitivity to contemporary connotations and to context, emerge from his writings. Finally, at a third level, I reflect on the approach in the light of strands of musicological and intellectual thought in Schumann’s day and since.
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Castro, Daniel S. 1976. "The relationship between precipitation and electromagnetic signals in the Schumann resonances." Thesis, Massachusetts Institute of Technology, 2000. http://hdl.handle.net/1721.1/8814.

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Thesis (M.Eng. and S.B.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, February 2001.
Includes bibliographical references (leaves 63-67).
Electromagnetic background and transient signals caused by global lightning activity are continuously recorded in the Schumann resonance band (3-120 Hz) from the MIT Schumann resonance site in West Greenwich, Rhode Island. These measurements are compared with precipitation estimates provided by the National Aeronautics and Space Administration (NASA) and the National Oceanic Atmospherics Administration (NOAA). Spatial and quantitative analyses reveal a rough proportionality between pairs of these three quantities as well as the existence of an apparent planetary wave with approximate 5-day periodicity. Schumann resonance analyses have detected this wave in several regions of the world, suggesting that the physical origin of the wave is global. Regional analyses show a significant correlation between transients and rainfall in Africa, with substantially less significant correlations in South America and the Maritime Continent. Physical features of these extraordinary lightning events also provide new insight regarding the electrical and meteorological criteria for sprites. In particular, this thesis provides preliminary evidence for the possibility of oceanic, negative-stroke lightning events associated with sprites.
by Daniel S. Castro.
M.Eng.and S.B.
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Hanzelka, Michael. "Nízkoúrovňová měření a vyhodnocení vlivu magnetických polí na lidský organismus, jeho chování a rozhodování." Doctoral thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2017. http://www.nusl.cz/ntk/nusl-295646.

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Presents results of research in the field of low-level electromagnetic fields interacting with the higher organisms, in the frequency band from 0,01 to 30 Hz effect on the individual or social group. Provides a description of the methodology of measuring and evaluating the impact of workplace assembled measuring low-level electromagnetic fields, extremely low frequency (ELF) on a sample of respondents. It was proposed measuring device for monitoring and evaluating how respondents' reactions to changes in the geomagnetic or external - external magnetic / electromagnetic field and to work for the measurement and evaluation of changes in external magnetic fields very low levels (ELF). This work is designed to process and evaluate implemented within experimental research into the influence of low-level magnetic fields in the Earth's resonator psychophysiological parameters of human organism and its behavior and decision-making. The work confirmed the influence of low-level magnetic fields on the psychophysiological parameters of the organism to be simultaneously confirmed the hypothesis established in accordance with the objectives of work.
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Altuntas, Emre. "Forecasting Of The Electromagnetic Waves In Ionized Media Related To Aerospace Applications." Master's thesis, METU, 2007. http://etd.lib.metu.edu.tr/upload/12608781/index.pdf.

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The dominant natural electromagnetic (EM) radiation in the extremely low frequency (ELF) range is due to global lightning activity. Radio waves of ELF band traveling along the surface of the ground are able to circle the globe and return to the starting point. Schumann Resonances (SR) are the EM phenomena which occur in the cavity formed by the conducting Earth and the ionosphere, with peak frequencies close to 8, 14, 20, 26 Hz, etc. The spectral characteristics of the SR modes are defined by their resonant mode amplitudes, center frequencies and half-widths. The characteristics of the SR became important in aerospace, marine applications, atmospheric studies, in addition to their relevance to global lightning studies due to their frequency band. The objective of this work is two fold: (i) to investigate the characteristics of SR parameters obtained at Sarkoy in Turkey
(ii) to model the nonlinear characteristics of the Near Earth Space Processes by forecasting the 1st SR mode intensities different time steps in advance using neural network modeling approach. The results show that the SR amplitudes exhibit the characteristics of Tropical African lightning activity and have maxima around 1400 UT. The neural network results show that the proposed model is able to forecast SR amplitudes from 0,5 to 36 hours in advance within reasonable error limits. Furthermore, a fuzzy neural network model with a non&ndash
linear optimization algorithm for the training phase is proposed and tested for the future work.
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Jing-YauTang and 唐敬堯. "Biological effects of Schumann Resonance Frequency modulation on B16-F10 melanoma skin cancer cells." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/kjyea5.

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博士
國立成功大學
電機工程學系
107
Melanoma is the most dangerous type of skin cancer because it is a particularly aggressive form of tumor. Patients with invasive melanoma have a poor prognosis following surgery or treatment with chemotherapies, and hence the use of an extremely low frequency electromagnetic field (ELF-EMF) is an alternative treatment method that could alter melanoma invasion and growth. Therefore, researchers are increasingly investigating the inhibitory effects of different EMF frequency types on B16-F10 cancer cells. In this study, we used the Schumann resonance frequency (7.83 Hz) on cell with melanoma combined with ELF-EMF exposure for 48 hr to influence B16-F10 cancer cells. Additionally, we used different sweep frequency ranges (step intervals 0.1 and 0.05 Hz) around 7.83 Hz to explore the different biological responses. We detected the viability of cancer cells via 3-(4, 5-dimethythiazol-2-y1)-2, 5-dipheny1 tetrazolium bromide (MTT assay) and used the calcium fluorescence dye Fluo-4 AM to show intracellular calcium fluorescence, which is positively proportionate to intracellular calcium concentration. The Schumann sweep frequency (7.83 ± 0.3 Hz) had the highest inhibitory rate (25.5%) on cell viability. Furthermore, we used the zoom fast Fourier transform method to analyze the sweep frequency spectrum’s magnetic field exposure in terms of cell duration time. The cell inhibition rate was 21.4–25.45% when B16-F10 cells were exposed to a 7.83-Hz EMF for more than 2.3 hr. Moreover, the cell inhibition rate decreased 6% and 12% for sweep frequencies at ± 1 Hz and ± 2 Hz, respectively. Thus, the experimental results showed an obviously inhibitory effect around 7.83 Hz frequency spectrum with different frequency sweep intervals.
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Yang, Heng. "Three dimensional finite difference time domain modeling of Schumann resonances on earth and other planets of the solar system." 2007. http://www.etda.libraries.psu.edu/theses/approved/WorldWideIndex/ETD-2354/index.html.

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Books on the topic "Schumann resonance"

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Nickolaenko, Alexander, and Masashi Hayakawa. Schumann Resonance for Tyros. Tokyo: Springer Japan, 2014. http://dx.doi.org/10.1007/978-4-431-54358-9.

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Schumann Resonance For Tyros Essentials Of Global Electromagnetic Resonance In The Earthionosphere Cavity. Springer Verlag, Japan, 2013.

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Nickolaenko, Alexander, and Masashi Hayakawa. Schumann Resonance for Tyros: Essentials of Global Electromagnetic Resonance in the Earth Ionosphere Cavity. Springer Japan, 2016.

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Nickolaenko, Alexander, and Masashi Hayakawa. Schumann Resonance for Tyros: Essentials of Global Electromagnetic Resonance in the Earth-Ionosphere Cavity. Springer London, Limited, 2013.

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Book chapters on the topic "Schumann resonance"

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Nickolaenko, Alexander, and Masashi Hayakawa. "Introduction." In Schumann Resonance for Tyros, 1–18. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_1.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Inverse Problem of SR." In Schumann Resonance for Tyros, 217–44. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_10.

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Nickolaenko, Alexander, and Masashi Hayakawa. "SR and Global Temperature." In Schumann Resonance for Tyros, 245–60. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_11.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Signals in Adjoining Frequency Bands." In Schumann Resonance for Tyros, 261–77. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_12.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Extraordinary ELF Signals." In Schumann Resonance for Tyros, 279–301. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_13.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Supplementary Material." In Schumann Resonance for Tyros, 303–44. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_14.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Choosing a Site and Positioning of Equipments." In Schumann Resonance for Tyros, 19–38. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_2.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Calibrating the Antennas." In Schumann Resonance for Tyros, 39–49. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_3.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Spectra of Continuous SR Background." In Schumann Resonance for Tyros, 51–64. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_4.

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Nickolaenko, Alexander, and Masashi Hayakawa. "Regular SR Parameters." In Schumann Resonance for Tyros, 65–114. Tokyo: Springer Japan, 2013. http://dx.doi.org/10.1007/978-4-431-54358-9_5.

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Conference papers on the topic "Schumann resonance"

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Wang, Xuan, Yi Zhao, Xianfeng Chen, Junling Chen, and Jingbo Guo. "Design of Schumann resonance generator and detector." In 2017 IEEE 5th International Symposium on Electromagnetic Compatibility (EMC-Beijing). IEEE, 2017. http://dx.doi.org/10.1109/emc-b.2017.8260360.

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Lyakhov, Andrey N., Egor S. Goncharov, and Tatiana V. Losseva. "Experimental and theoretical study of Schumann resonance." In 28th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, edited by Oleg A. Romanovskii and Gennadii G. Matvienko. SPIE, 2022. http://dx.doi.org/10.1117/12.2644767.

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Cao, Bingxia, Jinghong Xue, Hongjuan Zhou, and Jingjing Zhang. "Discussion on Schumann Resonance Measurement and Data Processing." In 2016 International Conference on Intelligent Control and Computer Application (ICCA 2016). Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/icca-16.2016.105.

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Shvets, A. V., A. P. Nickolaenko, and V. N. Chebrov. "Effect of solar flares on Schumann resonance frequencies." In 2016 9th International Kharkiv Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMW). IEEE, 2016. http://dx.doi.org/10.1109/msmw.2016.7538029.

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Haldar, D. K., and S. S. De. "Schumann resonance: A latest wonder for climate forecast!" In 2011 XXXth URSI General Assembly and Scientific Symposium. IEEE, 2011. http://dx.doi.org/10.1109/ursigass.2011.6050867.

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Yuan, Xiao, Yi Wang, Jinzhi He, and Qunsheng Cao. "FDTD modeling of diurnal/seasonal variations of Schumann resonance." In 2013 Asia Pacific Microwave Conference - (APMC 2013). IEEE, 2013. http://dx.doi.org/10.1109/apmc.2013.6695123.

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Kolesnik, S. A., A. A. Kolmakov, and D. A. Nedosekov. "Polarization characteristics of the Schumann resonance modes in Tomsk." In XXI International Symposium Atmospheric and Ocean Optics. Atmospheric Physics, edited by Oleg A. Romanovskii. SPIE, 2015. http://dx.doi.org/10.1117/12.2205708.

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Nickolaenko, Alexander P. "Intensity of Schumann Resonance: Universal Time and Local Time Variations." In 2007 International Kharkiv Symposium Physics and Engrg. of Millimeter and Sub-Millimeter Waves (MSMW). IEEE, 2007. http://dx.doi.org/10.1109/msmw.2007.4294804.

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Koloskov, A. V., O. V. Budanov, and Yu M. Yampolski. "Long-term monitoring of the Schumann resonance signals from Antarctica." In 2014 XXXIth URSI General Assembly and Scientific Symposium (URSI GASS). IEEE, 2014. http://dx.doi.org/10.1109/ursigass.2014.6929891.

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Zhou, Hongjuan, Xiaolin Qiao, Haiyan Yu, and Bingxia Cao. "Analysis of Schumann Resonance Magnetic Signal Observed at Northeast Coast of China." In 2010 First International Conference on Pervasive Computing, Signal Processing and Applications (PCSPA 2010). IEEE, 2010. http://dx.doi.org/10.1109/pcspa.2010.198.

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Reports on the topic "Schumann resonance"

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Musur, M. A., and C. D. Beggan. Seasonal and Solar Cycle Variation of Schumann Resonance Intensity and Frequency at Eskdalemuir Observatory, UK. Balkan, Black sea and Caspian sea Regional Network for Space Weather Studies, October 2019. http://dx.doi.org/10.31401/sungeo.2019.01.11.

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