J 2023

Modelling the seismic response of the Mýtina maar volcanic structure

OPRŠAL, Ivo, Martin LABUTA and Jan BURJÁNEK

Basic information

Original name

Modelling the seismic response of the Mýtina maar volcanic structure

Authors

OPRŠAL, Ivo (203 Czech Republic, guarantor, belonging to the institution), Martin LABUTA (203 Czech Republic) and Jan BURJÁNEK (203 Czech Republic)

Edition

Earth, Planets and Space, Berlin, Německo, Springer Nature, 2023, 1343-8832

Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

10500 1.5. Earth and related environmental sciences

Country of publisher

Germany

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

RIV identification code

RIV/75081431:_____/23:00002555

Organization unit

Institute of Technology and Business in České Budějovice

Keywords in English

3D numerical modelling; 3D resonance; Ambient vibrations; Array measurements; Dispersion curves; F–K analysis; Maar volcanic structure response; Site effects; Spectral analysis

Tags

KIPV1, RIV23, SCOPUS
Změněno: 2/6/2023 10:03, Barbora Kroupová

Abstract

V originále

In this study, we determine the properties of the maar volcanic structure using ambient vibration analysis. We performed several ambient vibrations surveys at Mýtina maar (West-Bohemia, Czechia) to map amplification by site-to-reference spectral ratios and to estimate average shear wave velocities by array methods. As the maar diatreme is formed by a deep concave body of broken rock, strong 3D resonances develop. The site-to-reference amplification factors reach a value of 20 in the central part of the maar. Using the noise data, we demonstrate possibility of mapping the lateral dimensions of the maar infills by ambient noise measurements. To understand these observations, we developed a simplified 3D viscoelastic velocity model and simulated synthetic ambient vibrations by the finite difference method. The simulated response fitted both, measured fundamental frequencies and the amplification levels. The maximum depth of the crater was estimated to be at least 800 m.
Displayed: 24/12/2024 04:11