about
Strong, Multi-Scale Heterogeneity in Earth's Lowermost Mantle.The shuffling rotation of the Earth’s inner core revealed by earthquake doubletsTransdimensional inference in the geosciences.Centroid moment tensor catalogue using a 3-D continental scale Earth model: Application to earthquakes in Papua New Guinea and the Solomon IslandsSeismic moment tensor inversion using a 3-D structural model: applications for the Australian regionInsights into the kinematics of a volcanic caldera drop: Probabilistic finite-source inversion of the 1996 Bárdarbunga, Iceland, earthquakeShear properties of Earth’s inner core constrained by a detection of J waves in global correlation wavefieldAntarctic Ice Properties Revealed From Teleseismic P Wave Coda AutocorrelationEarth's Correlation Wavefield: Late Coda CorrelationPolymorphic Nature of Iron and Degree of Lattice Preferred Orientation Beneath the Earth's Inner Core BoundaryThe Variability and Interpretation of Earthquake Source Mechanisms in The Geysers Geothermal Field From a Bayesian Standpoint Based on the Choice of a Noise ModelSeismic constraints on magma evolution beneath Mount Baekdu (Changbai) volcano from transdimensional Bayesian inversion of ambient noise dataOn the feasibility and use of teleseismic P wave coda autocorrelation for mapping shallow seismic discontinuitiesSimultaneous use of multiple seismic arraysAttenuation tomography of the upper inner coreCrustal structure of a Proterozoic craton boundary: East Albany-Fraser Orogen, Western Australia, imaged with passive seismic and gravity anomaly dataCrustal surface wave velocity structure of the east Albany-Fraser Orogen, Western Australia, from ambient noise recordingsOn 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 EarthquakesIntraplate volcanism controlled by back-arc and continental structures in NE Asia inferred from transdimensional Bayesian ambient noise tomographyHighly efficient Bayesian joint inversion for receiver-based data and its application to lithospheric structure beneath the southern Korean PeninsulaEstimation of splitting functions from Earth's normal mode spectra using the neighbourhood algorithmPoint source moment tensor inversion through a Bayesian hierarchical modelComplex inner core boundary from frequency characteristics of the reflection coefficients of PKiKP waves observed by Hi-netUltra-low velocity zones beneath the Philippine and Tasman Seas revealed by a trans-dimensional Bayesian waveform inversionComplex inner core of the Earth: The last frontier of global seismologyA method of spherical harmonic analysis in the geosciences via hierarchical Bayesian inferenceCrustal and uppermost mantle structure variation beneath La Réunion hotspot trackNew constraints on the current stress field and seismic velocity structure of the eastern Yilgarn Craton from mechanisms of local earthquakesThe frequency dependence and locations of short-period microseisms generated in the Southern Ocean and West PacificRegionally heterogeneous uppermost inner core observed with Hi-net arrayDominant seismic noise sources in the Southern Ocean and West Pacific, 2000-2012, recorded at the Warramunga Seismic Array, AustraliaBayesian inference for ultralow velocity zones in the Earth's lowermost mantle: Complex ULVZ beneath the east of the PhilippinesSkewed orientation groups in scatter plots of earthquake fault plane solutions: Implications for extensional geometry at oceanic spreading centersImaging crustal structure variation across southeastern AustraliaMetapyroxenite in the mantle transition zone revealed from majorite inclusions in diamondsOn the nature of the P-wave velocity gradient in the inner core beneath Central AmericaMultistep modelling of receiver-based seismic and ambient noise data from WOMBAT array: crustal structure beneath southeast AustraliaExploiting seismic signal and noise in an intracratonic environment to constrain crustal structure and source parameters of infrequent earthquakesSeismic structure of the crust and uppermost mantle of the Capricorn and Paterson Orogens and adjacent cratons, Western Australia, from passive seismic transectsTransdimensional inversion of receiver functions and surface wave dispersion
P50
Q27303565-EF0D4D7B-B715-42D9-A748-13E750320B1AQ30050356-728E0739-F6A5-4520-9B0C-4748725A25B7Q44422571-5A35ED9A-DAA0-4116-BC0E-A8001C846CB6Q57864622-A531CD65-B567-4D43-B3C5-047A12EDF02CQ57864859-6556300A-7B30-4871-B635-A2624A042CCBQ57864872-AB0428D0-38B7-4CC4-9B1A-9BAD499A5DC8Q57871634-478A92AF-435F-4128-ADAB-D021D15D68DCQ57871638-E38558A0-66BA-49E5-9022-57F0DC481E47Q57871642-11EB71B4-2489-40A0-8D7E-34055F52549BQ57871645-6AD36B1F-B666-47A8-8065-90B874F7F0D0Q57871651-9E539A84-D5EA-44C9-A574-BD37ABFDB30CQ57871655-09FE4A60-094B-4A0D-81F5-A26D8BCBE6DDQ57871658-9C3815CC-F90E-4B8C-8EBA-6792A898F24CQ57871663-A33E941C-37B4-46CA-9DB7-12BE7398CE24Q57871666-637646B3-DDAE-4A3B-B142-DF0367C20285Q57871672-CEA983DF-0081-4A43-9155-67599FF16DA5Q57871676-D1732720-212C-4A67-A668-60B7AF122378Q57871678-0BC31F41-2CF0-4592-AD2D-63A4F364AD5FQ57871682-C8A485A1-95F0-442E-8EFE-1160AD4A70D2Q57871686-707DB731-B595-44E2-9EF8-DC51D2C21C4DQ57871690-DEAE7904-C9D3-4D9D-B86E-31431931567CQ57871700-D4A6B9A7-D1D5-4B5A-A6A9-3EA698991E96Q57871706-C68CF468-A004-4036-A28B-695BF71ADBC4Q57871711-71636207-2A75-445B-B555-40C4E7424E51Q57871716-5D09677A-7896-4098-83F3-987B6037CC06Q57871719-757CEE86-5FE7-420B-9B52-EB574F26AD52Q57871725-3C65F47E-3428-43E1-BCE7-B23ACAE29151Q57871730-341CA6A2-D82D-4F6B-92AE-B6EC5B045DFDQ57871734-97EFA39C-06B4-4A0D-B93D-BC20F250BA5BQ57871737-1A2D5804-C971-4B16-ACC9-9D0971D7C241Q57871742-AE275856-7E03-4334-B9A9-E02E299DF64AQ57871746-C2FEFD34-D02E-48DD-AE5C-A1745808C6CDQ57871760-3F6140FA-9553-4B94-BA43-697348CEB4A3Q57871778-562AD97F-6DAF-479F-8070-566AE82F809BQ57871783-67CE3ED9-F15E-4A51-942A-D3A75D2558FBQ57871788-06F1386A-CCEB-4E94-AF75-8EEEB36A6878Q57871794-9F5A99F9-B8FD-4992-ACDA-4A2C63BD11AFQ57871798-4400E719-C623-4292-B385-2826E5AAA06FQ57871810-BE8146BD-C9C4-46F9-8BD0-760D63B7E6FDQ57871817-8BA041B5-86F8-47BD-A8B2-E805575E4E8F
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0001-7072-490X
@en
name
Hrvoje Tkalčić
@ast
Hrvoje Tkalčić
@en
Hrvoje Tkalčić
@es
Hrvoje Tkalčić
@nl
type
label
Hrvoje Tkalčić
@ast
Hrvoje Tkalčić
@en
Hrvoje Tkalčić
@es
Hrvoje Tkalčić
@nl
altLabel
Tkalčić Hrvoje
@en
prefLabel
Hrvoje Tkalčić
@ast
Hrvoje Tkalčić
@en
Hrvoje Tkalčić
@es
Hrvoje Tkalčić
@nl
P1053
E-8465-2013
P106
P1153
6602455816
P21
P31
P3829
P496
0000-0001-7072-490X