TY  - JOUR
A1  - Dineva, Ekaterina Ivanova
A1  - Pearson, Jeniveve
A1  - Ilyin, Ilya
A1  - Verma, Meetu
A1  - Diercke, Andrea
A1  - Strassmeier, Klaus
A1  - Denker, Carsten
T1  - Characterization of chromospheric activity based on Sun-as-a-star spectral and disk-resolved activity indices
JF  - Astronomische Nachrichten = Astronomical notes
N2  - The strong chromospheric absorption lines Ca ii H & K are tightly connected to stellar surface magnetic fields. Only for the Sun, spectral activity indices can be related to evolving magnetic features on the solar disk. The Solar Disk-Integrated (SDI) telescope feeds the Potsdam Echelle Polarimetric and Spectroscopic Instrument (PEPSI) of the Large Binocular Telescope (LBT) at Mt. Graham International Observatory, Arizona, U.S.A. We present high-resolution, high-fidelity spectra that were recorded on 184 & 82 days in 2018 & 2019 and derive the Ca ii H & K emission ratio, that is, the S-index. In addition, we compile excess brightness and area indices based on full-disk Ca ii K-line-core filtergrams of the Chromospheric Telescope (ChroTel) at Observatorio del Teide, Tenerife, Spain and full-disk ultraviolet (UV) 1600 angstrom images of the Atmospheric Imaging Assembly (AIA) onboard the Solar Dynamics Observatory (SDO). Thus, Sun-as-a-star spectral indices are related to their counterparts derived from resolved images of the solar chromosphere. All indices display signatures of rotational modulation, even during the very low magnetic activity in the minimum of Solar Cycle 24. Bringing together different types of activity indices has the potential to join disparate chromospheric datasets yielding a comprehensive description of chromospheric activity across many solar cycles.
KW  - astronomical databases
KW  - miscellaneous
KW  - methods
KW  - data analysis
KW  - activity
KW  - Sun
KW  - atmosphere
KW  - chromosphere
KW  - techniques
KW  - spectroscopic
Y1  - 2022
U6  - https://doi.org/10.1002/asna.20223996
SN  - 0004-6337
SN  - 1521-3994
VL  - 343
IS  - 5
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Wilhelm, Jan Lorenz
T1  - Atmosphere in the home stadium of Hertha BSC (German Bundesliga)
T1  - Atmosphère au stade de Hertha BSC (Bundesliga allemande)
T1  - Atmosphère au stade de Hertha BSC (Bundesliga allemande)
BT  - melodies of moods, collective bodies, and the relevance of space
BT  - mélodies d’atmosphères, corps collectifs et pertinence de l’espace
BT  - melodías de estados de ánimo, cuerpos colectivos y la relevancia del espacio
JF  - Social & cultural geography
N2  - German football stadiums are well known for their atmosphere. It is often described as 'electrifying,' or 'cracking.' This article focuses on this atmosphere. Using a phenomenological approach, it explores how this emotionality can be understood and how geography matters while attending a match. Atmosphere in this context is conceptualized based on work by as a mood-charged space, neither object- nor subject-centered, but rather a medium of perception which cannot not exist. Based on qualitative research done in the home stadium of Hertha BSC in the German Bundesliga, this article shows that the bodily sensations experienced by spectators during a visit to the stadium are synchronized with events on the pitch and with the more or less imposing scenery. The analysis ofin situdiaries reveals that spectators experience a comprehensive sense of collectivity. The study presents evidence that the occurrence of these bodily sensations is strongly connected with different aspects of spatiality. This includes sensations of constriction and expansion within the body, an awareness of one's location within the stadium, the influence of the immediate surroundings and cognitive here/there and inside/outside distinctions.
N2  - Les stades de foot allemands sont bien connus pour leur atmosphère. Elle est souvent décrite comme « électrique » ou « géniale ». Cet article se concentre sur cette atmosphère. Utilisant une approche phénoménologique, il explore comment cette affectivité peut être comprise et comment la géographie a son importance quand on est à un match. L’atmosphère dans ce contexte est conceptualisée à partir des travaux de Gemot Böhme, comme un espace chargé d’atmosphère, ni centré sur le sujet, ni centré sur l’objet, mais plutôt comme un moyen de perception qui ne peut pas exister. A partir de recherche qualitative faite sur le stade de Hertha BSC de la Bundesliga allemande, cet article montre que les sensations corporelles ressenties par les spectateurs pendant une visite au stade sont synchronisées avec les événements sur le terrain et avec le paysage plus ou moins imposant. L’analyse de journaux intimes sur place révèle que les spectateurs font l’expérience d’une notion totale de collectivité. L’étude présente la preuve que la présence de ces sensations corporelles est fortement liée aux différents aspects de la spatialité. Cela inclut les sensations de compression et d’expansion dans le corps, une conscience de sa position dans le stade, l’influence de l’entourage immédiat et les distinctions cognitives de l’ici/là-bas et de l’intérieur/extérieur.
N2  - Los estadios de fútbol alemanes son bien conocidos por su ambiente. A menudo se lo describe como ‘electrizante’ o ‘estupendo’. Este artículo se centra en este ambiente. Usando un enfoque fenomenológico, explora cómo se puede entender esta emotividad y la importancia de la geografía mientras se asiste a un partido. El ambiente en este contexto se conceptualiza a partir del trabajo de Gernot Böhme como un espacio cargado de emociones, no centrado en objetos ni en sujetos, sino en un medio de percepción que no puede no existir. Basado en investigaciones cualitativas realizadas en el estadio de Hertha BSC durante la Bundesliga alemana, este artículo muestra que las sensaciones corporales experimentadas por los espectadores durante una visita al estadio se sincronizan con los eventos en la cancha y con el escenario más o menos imponente. El análisis de experiencias in situ revela que los espectadores experimentan un sentido integral de colectividad. El estudio presenta evidencia de que la ocurrencia de estas sensaciones corporales está fuertemente relacionada con diferentes aspectos de la espacialidad. Esto incluye sensaciones de constricción y expansión dentro del cuerpo, una conciencia de su ubicación dentro del estadio, la influencia del entorno inmediato y las distinciones cognitivas aquí/allá y dentro/fuera.
KW  - affect
KW  - atmosphere
KW  - corporeality
KW  - emotion
KW  - football
KW  - phenomenology
KW  - stadium
KW  - atmosphère
KW  - corporalité
KW  - émotion
KW  - stade
KW  - phénoménologie
KW  - ambiente
KW  - corporeidad
KW  - emoción
KW  - afecto
KW  - estadio
KW  - fútbol
KW  - fenomenología
Y1  - 2018
U6  - https://doi.org/10.1080/14649365.2018.1514646
SN  - 1464-9365
SN  - 1470-1197
VL  - 21
IS  - 5
SP  - 718
EP  - 737
PB  - Routledge, Taylor & Francis Group
CY  - London
ER  - 
TY  - JOUR
A1  - Mikolaj, Michal
A1  - Reich, Marvin
A1  - Güntner, Andreas
T1  - Resolving geophysical signals by terrestrial gravimetry
BT  - a time domain assessment of the correction-induced uncertainty
JF  - Journal of geophysical research : Solid earth
N2  - Terrestrial gravimetry is increasingly used to monitor mass transport processes in geophysics boosted by the ongoing technological development of instruments. Resolving a particular phenomenon of interest, however, requires a set of gravity corrections of which the uncertainties have not been addressed up to now. In this study, we quantify the time domain uncertainty of tide, global atmospheric, large-scale hydrological, and nontidal ocean loading corrections. The uncertainty is assessed by comparing the majority of available global models for a suite of sites worldwide. The average uncertainty expressed as root-mean-square error equals 5.1nm/s(2), discounting local hydrology or air pressure. The correction-induced uncertainty of gravity changes over various time periods of interest ranges from 0.6nm/s(2) for hours up to a maximum of 6.7nm/s(2) for 6months. The corrections are shown to be significant and should be applied for most geophysical applications of terrestrial gravimetry. From a statistical point of view, however, resolving subtle gravity effects in the order of few nanometers per square second is challenged by the uncertainty of the corrections. Plain Language Summary Many scientists are exploring ways to benefit from gravity measurements in fields of high societal relevance such as monitoring of volcanoes or measuring the amount of water in underground. Any application of such new methods, however, requires careful preparation of the gravity measurements. The intention of the preparation process is to ensure that the measurements do not contain information about processes that are not of interest. For that reason, the influence of atmosphere, ocean, tides, and hydrology needs to be reduced from the gravity. In this study, we investigate how this reduction process influences the quality of the measurement. We found that the precision degrades especially owing to the hydrology. The ocean plays an important role at sites close to the coast and the atmosphere at sites located in mountains. The overall errors of the reductions may complicate a reliable use of gravity measurements in certain studies focusing on very small signals. Nevertheless, the precision of gravity reductions alone does not obstruct a meaningful use of gravity measurements in most research fields. Details specifying the reduction precision are provided in this study allowing scientist dealing with gravity measurements to decide if their signal of interest can be reliably resolved.
KW  - gravity observations
KW  - Earth tides
KW  - atmosphere
KW  - hydrology
KW  - nontidal ocean loading
Y1  - 2019
U6  - https://doi.org/10.1029/2018JB016682
SN  - 2169-9313
SN  - 2169-9356
VL  - 124
IS  - 2
SP  - 2153
EP  - 2165
PB  - American Geophysical Union
CY  - Washington
ER  -