Klaus Holliger

What is he best known for?

The fields of study he is best known for:

• Statistics
• Optics
• Geometry

Klaus Holliger mostly deals with Geophysics, Seismology, Crust, Mineralogy and Attenuation. Klaus Holliger combines subjects such as Wave propagation, Fractal dimension, Scattering and Borehole with his study of Geophysics. His studies in Seismology integrate themes in fields like Classification of discontinuities and Fracture.

His work deals with themes such as Probability density function, Tectonics, Lithosphere, Standard deviation and Wavenumber, which intersect with Crust. His Mineralogy study combines topics in areas such as Petrophysics, Permeability, Time constant and Scaling. His Attenuation study incorporates themes from Electromagnetic radiation, Poromechanics, Amplitude and Fluid dynamics, Mechanics.

His most cited work include:

• Human anti‐self antibodies with high specificity from phage display libraries. (864 citations)
• Application of a new 2D time-domain full-waveform inversion scheme to crosshole radar data (165 citations)
• Full-Waveform Inversion of Crosshole Radar Data Based on 2-D Finite-Difference Time-Domain Solutions of Maxwell's Equations (147 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Seismology, Attenuation, Geophysics, Ground-penetrating radar and Mineralogy. His studies deal with areas such as Reflection, Crust, Hydrophone and Borehole as well as Seismology. The study incorporates disciplines such as Fluid dynamics, Mechanics, Geotechnical engineering and Poromechanics in addition to Attenuation.

His Mechanics research includes themes of Viscoelasticity and Porous medium. His Poromechanics research incorporates themes from Biot number, Hydrogeology and Fracture. His Geophysics research integrates issues from Wave propagation, Inverse problem and Anisotropy.

He most often published in these fields:

• Seismology (23.33%)
• Attenuation (23.64%)
• Geophysics (17.58%)

What were the highlights of his more recent work (between 2017-2021)?

• Fracture (9.39%)
• Mechanics (15.45%)
• Attenuation (23.64%)

In recent papers he was focusing on the following fields of study:

Fracture, Mechanics, Attenuation, Poromechanics and Porous medium are his primary areas of study. His Fracture research is multidisciplinary, relying on both Full waveform, Geophysics and Borehole. His work is dedicated to discovering how Geophysics, Massif are connected with Fault, Shear zone and Petrophysics and other disciplines.

His research in Borehole focuses on subjects like Soil science, which are connected to Surface. His Attenuation research is multidisciplinary, incorporating perspectives in Flow and Anisotropy. His study looks at the intersection of Poromechanics and topics like Biot number with Hydrogeology, Wave propagation, Polygon mesh, Embedding and Finite element method.

Between 2017 and 2021, his most popular works were:

• Seismic Attenuation and Stiffness Modulus Dispersion in Porous Rocks Containing Stochastic Fracture Networks (15 citations)
• Which Path to Choose in Sequential Gaussian Simulation. (15 citations)
• Estimation of Fracture Compliance From Attenuation and Velocity Analysis of Full‐Waveform Sonic Log Data (13 citations)

In his most recent research, the most cited papers focused on:

• Statistics
• Optics
• Geometry

The scientist’s investigation covers issues in Attenuation, Porosity, Mechanics, Fracture and Hydrogeology. He has researched Porosity in several fields, including Partially saturated, Seismic wave and Geomorphology. The Mechanics study combines topics in areas such as Wave propagation, Consolidation and Porous medium.

The various areas that he examines in his Fracture study include Acoustics, Dispersion and Full waveform. Klaus Holliger interconnects Poromechanics, Computational science, Adaptive mesh refinement, Biot number and Discretization in the investigation of issues within Hydrogeology. His study focuses on the intersection of Composite material and fields such as Anisotropy with connections in the field of Cluster analysis.

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