Dr. Ir. Haryadi Permana (SP4)

 Scopus Documents
NoScopusCited
1High-resolution multi-proxy reconstruction of environmental changes in coastal waters of the Java Sea, Indonesia, during the late Holocene
(2017) Palynology, 41 (3), pp. 297-310.
DOCUMENT TYPE: Article
SOURCE: Scopus
2Downgoing plate topography stopped rupture in the A.D. 2005 Sumatra earthquake3
(2016) Geology, 44 (1), pp. 71-74. Cited 3 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
3Geological structure of the offshore Sumatra forearc region estimated from high-resolution MCS reflection survey1
(2014) Earth and Planetary Science Letters, 386, pp. 41-51. Cited 1 time.
DOCUMENT TYPE: Article
SOURCE: Scopus
4Can turbidites be used to reconstruct a paleoearthquake record for the central Sumatran margin?: Reply2
(2014) Geology, 42 (10), p. e353. Cited 2 times.
DOCUMENT TYPE: Letter
SOURCE: Scopus
5Can turbidites be used to reconstruct a paleoearthquake record for the central Sumatran margin?36
(2013) Geology, 41 (7), pp. 763-766. Cited 36 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
63-D active source tomography around Simeulue Island offshore Sumatra: Thick crustal zone responsible for earthquake segment boundary7
(2013) Geophysical Research Letters, 40 (1), pp. 48-53. Cited 7 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
7Structural evolution of backthrusting in the Mentawai Fault Zone, offshore Sumatran forearc5
(2012) Geochemistry, Geophysics, Geosystems, 13 (12), art. no. Q12006, . Cited 5 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
8Seismic images of the megathrust rupture during the 25th October 2010 Pagai earthquake, SW Sumatra: Frontal rupture and large tsunami21
(2011) Geophysical Research Letters, 38 (16), art. no. L16313, . Cited 21 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
9Updip rupture of the 2004 Sumatra earthquake extended by thick indurated sediments36
(2011) Nature Geoscience, 4 (7), pp. 453-456. Cited 36 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
10Exploring structural controls on sumatran earthquakes2
(2010) Eos, 91 (44), pp. 405-406. Cited 2 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
11Contrasting décollement and prism properties over the sumatra 2004-2005 earthquake rupture boundary43
(2010) Science, 329 (5988), pp. 207-210. Cited 43 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
12Evidence of active backthrusting at the NE Margin of Mentawai Islands, SW Sumatra24
(2010) Geophysical Journal International, 180 (2), pp. 703-714. Cited 24 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
13Limits of the seismogenic zone in the epicentral region of the 26 December 2004 great Sumatra-Andaman earthquake: Results from seismic refraction and wide-angle reflection surveys and thermal modeling35
(2010) Journal of Geophysical Research: Solid Earth, 115 (1), art. no. B01304, . Cited 35 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
14Seismic imaging of forearc backthrusts at northern Sumatra subduction zone24
(2009) Geophysical Journal International, 179 (3), pp. 1772-1780. Cited 24 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
15Megathrust earthquakes can nucleate in the forearc mantle: Evidence from the 2004 Sumatra event32
(2009) Geology, 37 (7), pp. 659-662. Cited 32 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
16Impact of lower plate structure on upper plate deformation at the NW Sumatran convergent margin from seafloor morphology41
(2008) Earth and Planetary Science Letters, 275 (3-4), pp. 201-210. Cited 41 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
17P-T evolution of eclogites and blueschists from the Luk Ulo complex of central Java, Indonesia6
(2007) International Geology Review, 49 (4), pp. 329-356. Cited 6 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
18Dynamics and age of formation of the Seram-Ambon ophiolites (Central Indonesia) [Dynamique et âge de formation des ophiolites de Seram-Ambon (Indonésie centrale)]11
(2003) Bulletin de la Societe Geologique de France, 174 (6), pp. 529-543. Cited 11 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
19The central ophiolite belt of Irian Jaya (Indonesia): Petrological and geochemical evidence for a back-arc basin origin [L'ophiolite de la chaîne centrale d'Irian Jaya (Indonésie): Évidences pétrologiques et géochimiques pour une origine dans un bassin arrière-arc]3
(2001) Comptes Rendus de l'Academie de Sciences - Serie IIa: Sciences de la Terre et des Planetes, 332 (6), pp. 691-699. Cited 3 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
20Petrology and geochemistry of the Cyclops ophiolites (Irian Jaya, East Indonesia): Consequences for the Cenozoic evolution of the north Australian margin37
(1999) Mineralogy and Petrology, 65 (1-2), pp. 1-28. Cited 37 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
21Extensional to compressive Mesozoic magmatism at the SE Eurasia margin as recorded from the Meratus ophiolite (SE Borneo, Indonesia)5
(1999) Geodinamica Acta, 12 (1), pp. 43-55. Cited 5 times.
DOCUMENT TYPE: Article
SOURCE: Scopus
22Extensional to compressive mesozoic magmatism at the se eurasia margin as recorded from the meratus ophiolite (SE Borneo, Indonesia)
(1999) Geodinamica Acta, 12 (1), pp. 43-55.
DOCUMENT TYPE: Article
SOURCE: Scopus
Total Sitasi374

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