T
Tarje Nissen-Meyer
Researcher at University of Oxford
Publications - 68
Citations - 2498
Tarje Nissen-Meyer is an academic researcher from University of Oxford. The author has contributed to research in topics: Spectral element method & Wave propagation. The author has an hindex of 23, co-authored 65 publications receiving 1811 citations. Previous affiliations of Tarje Nissen-Meyer include Princeton University & École Polytechnique Fédérale de Lausanne.
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Journal ArticleDOI
Forward and adjoint simulations of seismic wave propagation on fully unstructured hexahedral meshes
Daniel Peter,Dimitri Komatitsch,Dimitri Komatitsch,Yang Luo,Roland Martin,Nicolas Le Goff,Emanuele Casarotti,Pieyre Le Loher,Federica Magnoni,Qinya Liu,Céline Blitz,Tarje Nissen-Meyer,Piero Basini,Jeroen Tromp +13 more
TL;DR: This work presents various examples of fully unstructured meshes, snapshots of wavefields and finite-frequency kernels generated by Version 2.0 'Sesame' of the widely used open source spectral-element package SPECFEM3D, and benchmarked for a layercake model.
Journal ArticleDOI
Constraints on the shallow elastic and anelastic structure of Mars from InSight seismic data
Philippe Lognonné,Philippe Lognonné,William B. Banerdt,William T. Pike,Domenico Giardini,U. R. Christensen,Raphaël F. Garcia,Taichi Kawamura,Sharon Kedar,Brigitte Knapmeyer-Endrun,Ludovic Margerin,Francis Nimmo,Mark P. Panning,Benoit Tauzin,John-Robert Scholz,Daniele Antonangeli,S. Barkaoui,Eric Beucler,Felix Bissig,Nienke Brinkman,Marie Calvet,Savas Ceylan,Constantinos Charalambous,Paul M. Davis,M. van Driel,Mélanie Drilleau,Lucile Fayon,Rakshit Joshi,B. Kenda,Amir Khan,Amir Khan,Martin Knapmeyer,Vedran Lekic,J. B. McClean,David Mimoun,Naomi Murdoch,Lu Pan,Clément Perrin,Baptiste Pinot,L. Pou,Sabrina Menina,Sebastien Rodriguez,Sebastien Rodriguez,Cedric Schmelzbach,Nicholas Schmerr,David Sollberger,Aymeric Spiga,Aymeric Spiga,Simon Stähler,Alexander E. Stott,Eléonore Stutzmann,Saikiran Tharimena,Rudolf Widmer-Schnidrig,Fredrik Andersson,Veronique Ansan,Caroline Beghein,Maren Böse,Ebru Bozdag,John Clinton,Ingrid Daubar,Pierre Delage,Nobuaki Fuji,Matthew P. Golombek,Matthias Grott,Anna Horleston,K. Hurst,Jessica C. E. Irving,A. Jacob,Jörg Knollenberg,S. Krasner,C. Krause,Ralph D. Lorenz,Chloé Michaut,Chloé Michaut,Robert Myhill,Tarje Nissen-Meyer,J. ten Pierick,Ana-Catalina Plesa,C. Quantin-Nataf,Johan O. A. Robertsson,L. Rochas,Martin Schimmel,Sue Smrekar,Tilman Spohn,Tilman Spohn,Nicholas A Teanby,Jeroen Tromp,J. Vallade,Nicolas Verdier,Christos Vrettos,Renee Weber,Don Banfield,E. Barrett,M. Bierwirth,S. B. Calcutt,Nicolas Compaire,Catherine L. Johnson,Catherine L. Johnson,Davor Mance,Fabian Euchner,L. Kerjean,Guenole Mainsant,Antoine Mocquet,J. A Rodriguez Manfredi,Gabriel Pont,Philippe Laudet,T. Nebut,S. de Raucourt,O. Robert,Christopher T. Russell,A. Sylvestre-Baron,S. Tillier,Tristram Warren,Mark A. Wieczorek,C. Yana,Peter Zweifel +115 more
TL;DR: In this paper, the authors measured the crustal diffusivity and intrinsic attenuation using multiscattering analysis and found that seismic attenuation is about three times larger than on the Moon, which suggests that the crust contains small amounts of volatiles.
Journal ArticleDOI
AxiSEM: broadband 3-D seismic wavefields in axisymmetric media
Tarje Nissen-Meyer,M. van Driel,Simon Stähler,Kasra Hosseini,Stefanie Hempel,Ludwig Auer,Andrea Colombi,Alexandre Fournier +7 more
TL;DR: In this article, the authors present a methodology to compute 3D global seismic wavefields for realistic earthquake sources in visco-elastic anisotropic media, covering applications across the observable seismic frequency band with moderate computational resources.
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Savani: A variable resolution whole-mantle model of anisotropic shear velocity variations based on multiple data sets
TL;DR: In this paper, a tomographic model of radially anisotropic shear velocity variations in the Earth's mantle is presented based on a new compilation of previously published data sets and a variable block parameterization, adapted to local raypath density.
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Instaseis: instant global seismograms based on a broadband waveform database
TL;DR: A new method and implementation to store global Green's functions in a database which allows for near-instantaneous (on the order of milliseconds) extraction of arbitrary seismograms and allows to compute databases at the highest frequencies globally observed.