Abstract is: Hrvoje Tkalčić (born 3 February 1970) is Australian and Croatian scientist (geophysicist) and Professor at the Australian National University in Canberra.
human | Q5 |
P2381 | Academic Tree ID | 245157 |
P268 | Bibliothèque nationale de France ID | 17120015r |
P11496 | CiNii Research ID | 1140563741623974528 |
P1280 | CONOR.SI ID | 232229987 |
P227 | GND ID | 1165518767 |
P2671 | Google Knowledge Graph ID | /g/11cmcygv74 |
P1960 | Google Scholar author ID | B2BTH18AAAAJ |
P269 | IdRef ID | 200609432 |
P244 | Library of Congress authority ID | n2016060274 |
P6634 | LinkedIn personal profile ID | hrvoje-tkalčić-a71b264a |
P271 | NACSIS-CAT author ID | DA18893347 |
P691 | NL CR AUT ID | ntk2018979958 |
P1315 | NLA Trove people ID | 1508264 |
P1375 | NSK ID | 000336469 |
P1207 | NUKAT ID | n2019150851 |
P856 | official website | http://www.rses.anu.edu.au/~hrvoje |
P496 | ORCID iD | 0000-0001-7072-490X |
P3829 | Publons author ID | 2646004 |
P1053 | ResearcherID | E-8465-2013 |
P1153 | Scopus author ID | 6602455816 |
P214 | VIAF ID | 14147905316679092742 |
P10832 | WorldCat Entities ID | E39PBJc83pF7Wqdf9qVTqq9Rrq |
P1556 | zbMATH author ID | tkalcic.h |
P166 | award received | Price Medal | Q4287186 |
Fellow of the Australian Academy of Science | Q59260322 | ||
P27 | country of citizenship | Croatia | Q224 |
P69 | educated at | University of California, Berkeley | Q168756 |
Faculty of Science, University of Zagreb | Q1567459 | ||
P108 | employer | Australian National University | Q127990 |
P734 | family name | Tkalčić | Q119856352 |
Tkalčić | Q119856352 | ||
Tkalčić | Q119856352 | ||
P101 | field of work | physics | Q413 |
geophysics | Q46255 | ||
seismology | Q83371 | ||
P735 | given name | Hrvoje | Q5924021 |
Hrvoje | Q5924021 | ||
P1412 | languages spoken, written or signed | English | Q1860 |
Croatian | Q6654 | ||
P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
P106 | occupation | scientist | Q901 |
physicist | Q169470 | ||
university teacher | Q1622272 | ||
seismologist | Q12051314 | ||
geophysicist | Q12094958 | ||
P551 | residence | Bjelovar | Q5707 |
P21 | sex or gender | male | Q6581097 |
Q57871719 | A method of spherical harmonic analysis in the geosciences via hierarchical Bayesian inference |
Q57871929 | A multistep approach for joint modeling of surface wave dispersion and teleseismic receiver functions: Implications for lithospheric structure of the Arabian Peninsula |
Q57871936 | A new global PKP data set to study Earth's core and deep mantle |
Q57871638 | Antarctic Ice Properties Revealed From Teleseismic P Wave Coda Autocorrelation |
Q57871666 | Attenuation tomography of the upper inner core |
Q57871746 | Bayesian inference for ultralow velocity zones in the Earth's lowermost mantle: Complex ULVZ beneath the east of the Philippines |
Q57871845 | Benford's law in the natural sciences |
Q57864622 | Centroid moment tensor catalogue using a 3-D continental scale Earth model: Application to earthquakes in Papua New Guinea and the Solomon Islands |
Q57871706 | Complex inner core boundary from frequency characteristics of the reflection coefficients of PKiKP waves observed by Hi-net |
Q57871716 | Complex inner core of the Earth: The last frontier of global seismology |
Q57871991 | Constraints on D″ structure using PKP(AB-DF), PKP(BC-DF) and PcP-P traveltime data from broad-band records |
Q57871856 | Core structure re-examined using new teleseismic data recorded in Antarctica: evidence for, at most, weak cylindrical seismic anisotropy in the inner core |
Q57871824 | Crustal and uppermost mantle structure beneath the External Dinarides, Croatia, determined from teleseismic receiver functions |
Q57871725 | Crustal and uppermost mantle structure variation beneath La Réunion hotspot track |
Q57871861 | Crustal structure beneath China from receiver function analysis |
Q57871672 | Crustal structure of a Proterozoic craton boundary: East Albany-Fraser Orogen, Western Australia, imaged with passive seismic and gravity anomaly data |
Q57871676 | Crustal surface wave velocity structure of the east Albany-Fraser Orogen, Western Australia, from ambient noise recordings |
Q57871742 | Dominant seismic noise sources in the Southern Ocean and West Pacific, 2000-2012, recorded at the Warramunga Seismic Array, Australia |
Q57871642 | Earth's Correlation Wavefield: Late Coda Correlation |
Q57871690 | Estimation of splitting functions from Earth's normal mode spectra using the neighbourhood algorithm |
Q57871798 | Exploiting seismic signal and noise in an intracratonic environment to constrain crustal structure and source parameters of infrequent earthquakes |
Q57871834 | High-frequency ambient noise tomography of southeast Australia: New constraints on Tasmania's tectonic past |
Q57871686 | Highly efficient Bayesian joint inversion for receiver-based data and its application to lithospheric structure beneath the southern Korean Peninsula |
Q57871778 | Imaging crustal structure variation across southeastern Australia |
Q57864872 | Insights into the kinematics of a volcanic caldera drop: Probabilistic finite-source inversion of the 1996 Bárdarbunga, Iceland, earthquake |
Q120801277 | Internal structure of ultralow-velocity zones consistent with origin from a basal magma ocean |
Q57871682 | Intraplate volcanism controlled by back-arc and continental structures in NE Asia inferred from transdimensional Bayesian ambient noise tomography |
Q57871852 | Large variations in travel times of mantle-sensitive seismic waves from the South Sandwich Islands: Is the Earth's inner core a conglomerate of anisotropic domains? |
Q60699376 | Lineaments and earthquake ruptures on the East Japan megathrust |
Q57871783 | Metapyroxenite in the mantle transition zone revealed from majorite inclusions in diamonds |
Q57871794 | Multistep modelling of receiver-based seismic and ambient noise data from WOMBAT array: crustal structure beneath southeast Australia |
Q57871821 | Multistep modelling of teleseismic receiver functions combined with constraints from seismic tomography: crustal structure beneath southeast China |
Q57872000 | Near-source velocity structure and isotropic moment tensors: A case study of the Long Valley Caldera |
Q57871730 | New constraints on the current stress field and seismic velocity structure of the eastern Yilgarn Craton from mechanisms of local earthquakes |
Q57871946 | Observation of near-podal P′P′ precursors: Evidence for back scattering from the 150–220 km zone in the Earth's upper mantle |
Q57871678 | On the Use of Data Noise as a Site‐Specific Weight Parameter in a Hierarchical Bayesian Moment Tensor Inversion: The Case Study of The Geysers and Long Valley Caldera Earthquakes |
Q57871658 | On the feasibility and use of teleseismic P wave coda autocorrelation for mapping shallow seismic discontinuities |
Q57871886 | On the inner-outer core density contrast from PKiKP/PcP amplitude ratios and uncertainties caused by seismic noise |
Q57871788 | On the nature of the P-wave velocity gradient in the inner core beneath Central America |
Q57871981 | On the origin of complexity in PKP travel time data |
Q57872020 | PKP(BC-DF) Travel time residuals and short scale heterogeneity in the deep Earth |
Q57871700 | Point source moment tensor inversion through a Bayesian hierarchical model |
Q57871645 | Polymorphic Nature of Iron and Degree of Lattice Preferred Orientation Beneath the Earth's Inner Core Boundary |
Q60702439 | Receiver functions from seismic interferometry: A practical guide |
Q57871737 | Regionally heterogeneous uppermost inner core observed with Hi-net array |
Q116775330 | Repetitive marsquakes in Martian upper mantle |
Q57871655 | Seismic constraints on magma evolution beneath Mount Baekdu (Changbai) volcano from transdimensional Bayesian inversion of ambient noise data |
Q57864859 | Seismic moment tensor inversion using a 3-D structural model: applications for the Australian region |
Q114092582 | Seismic moment tensors from synthetic rotational and translational ground motion: Green’s functions in 1-D versus 3-D |
Q57871916 | Seismic structure of Kuwait |
Q57871810 | Seismic structure of the crust and uppermost mantle of the Capricorn and Paterson Orogens and adjacent cratons, Western Australia, from passive seismic transects |
Q57871634 | Shear properties of Earth’s inner core constrained by a detection of J waves in global correlation wavefield |
Q57871986 | Short scale heterogeneity in the lowermost mantle: insights from PcP-P and ScS-S data |
Q57871663 | Simultaneous use of multiple seismic arrays |
Q57871760 | Skewed orientation groups in scatter plots of earthquake fault plane solutions: Implications for extensional geometry at oceanic spreading centers |
Q57871877 | Steep reflections from the earth's core reveal small-scale heterogeneity in the upper mantle |
Q27303565 | Strong, Multi-Scale Heterogeneity in Earth's Lowermost Mantle |
Q57871881 | Structure of the Tasmanian lithosphere from 3D seismic tomography |
Q63946770 | The 20 May 2016 Petermann Ranges earthquake: centroid location, magnitude and focal mechanism from full waveform modelling |
Q63946765 | The Mantle Transition Zone in Fennoscandia: Enigmatic High Topography Without Deep Mantle Thermal Anomaly |
Q57871651 | The Variability and Interpretation of Earthquake Source Mechanisms in The Geysers Geothermal Field From a Bayesian Standpoint Based on the Choice of a Noise Model |
Q57872009 | The effect of D″ on PKP(AB−DF) travel time residuals and possible implications for inner core structure |
Q57871734 | The frequency dependence and locations of short-period microseisms generated in the Southern Ocean and West Pacific |
Q30050356 | The shuffling rotation of the Earth’s inner core revealed by earthquake doublets |
Q61717150 | Trans-dimensional Bayesian attenuation tomography of the upper inner core |
Q44422571 | Transdimensional inference in the geosciences. |
Q57871817 | Transdimensional inversion of receiver functions and surface wave dispersion |
Q57871711 | Ultra-low velocity zones beneath the Philippine and Tasman Seas revealed by a trans-dimensional Bayesian waveform inversion |
Q92419374 | Very- and ultra-long-period seismic signals prior to and during caldera formation on La Réunion Island |
Hrvoje Tkalčić | wikipedia | |
Hrvoje Tkalčić | wikipedia |
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