Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS

Wave propagation of crustal phases near the ARCESS array is examined and compared to characteristics near the NORESS array, with emphasis on Lg and its composition. f-k analysis is applied to the data, to identify arrivals in the records, then a composite of array beams is used to approximate each e...

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Bibliographic Details
Main Authors: Vogfjord, Kristin S., Langston, Charles A.
Other Authors: PENNSYLVANIA STATE UNIV UNIVERSITY PARK DEPT OF GEOSCIENCES
Format: Text
Language:English
Published: 1993
Subjects:
Geology
Geochemistry and Mineralogy
Seismology
*EARTH CRUST
*SEISMIC WAVES
*SEISMIC ARRAYS
VELOCITY
PROPAGATION
NORWAY
AZIMUTH
TRAVEL TIME
EARTH MANTLE
SEISMOGRAPHS
MOHOROVICIC DISCONTINUITY
SECONDARY WAVES
SEISMOLOGICAL STATIONS
ARCTIC REGIONS
PRIMARY WAVES(SEISMIC WAVES)
SEISMIC VELOCITY
AMPLITUDE
EARTHQUAKES
SURFACE WAVES
WAVE PROPAGATION
NORESS (NORWEGIAN EXPERIMENTAL SMALL SUBARRAY)
ARCESS (ARCTIC EXPERIMENTAL SMALL SUBARRAY)
REGIONAL WAVE PROPAGATION
RG-WAVE PHASE-VELOCITY
INVERSION FOR S-WAVE VELOCITY
LG WAVES
RG WAVES
PE62101F
WUPL760009AQ
SBI1
FISCAL YEAR 93
Arctic
Norway
Online Access:http://www.dtic.mil/docs/citations/ADA265959
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA265959
id ftdtic:ADA265959
record_format openpolar
spelling ftdtic:ADA265959 2023-05-15T15:03:35+02:00 Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS Vogfjord, Kristin S. Langston, Charles A. PENNSYLVANIA STATE UNIV UNIVERSITY PARK DEPT OF GEOSCIENCES 1993-02 text/html http://www.dtic.mil/docs/citations/ADA265959 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA265959 en eng http://www.dtic.mil/docs/citations/ADA265959 Approved for public release; distribution is unlimited. DTIC AND NTIS Geology Geochemistry and Mineralogy Seismology *EARTH CRUST *SEISMIC WAVES *SEISMIC ARRAYS VELOCITY PROPAGATION NORWAY AZIMUTH TRAVEL TIME EARTH MANTLE SEISMOGRAPHS MOHOROVICIC DISCONTINUITY SECONDARY WAVES SEISMOLOGICAL STATIONS ARCTIC REGIONS PRIMARY WAVES(SEISMIC WAVES) SEISMIC VELOCITY AMPLITUDE EARTHQUAKES SURFACE WAVES WAVE PROPAGATION NORESS (NORWEGIAN EXPERIMENTAL SMALL SUBARRAY) ARCESS (ARCTIC EXPERIMENTAL SMALL SUBARRAY) REGIONAL WAVE PROPAGATION RG-WAVE PHASE-VELOCITY INVERSION FOR S-WAVE VELOCITY LG WAVES RG WAVES PE62101F WUPL760009AQ SBI1 FISCAL YEAR 93 Text 1993 ftdtic 2016-02-22T08:58:15Z Wave propagation of crustal phases near the ARCESS array is examined and compared to characteristics near the NORESS array, with emphasis on Lg and its composition. f-k analysis is applied to the data, to identify arrivals in the records, then a composite of array beams is used to approximate each event. Record sections of composite-seismograms are constructed for different directions from ARCESS, to study propagational characteristics with distance and azimuth. Near surface velocity under NORESS and ARCESS is obtained through inversion of Rg wave dispersion curves. A composite ARCESS record section is compared to a NORESS record section of events located in the Caledonides. The differences that emerge are that Lg in the Caledonian region, north of NORESS, is dominated by discrete arrivals representing Moho reflections, with the order of reflection increasing with distance. In the Archean ARCESS region, however, Lg is dominated by turning waves, also with the order of reverberation increasing with distance, but with each confined to a small distance range. Rg wave propagation in the ARCESS region is much more efficient than in the Caledonian NORESS region, as Rg is observed to 400 km distance at ARCESS, but only to 200 km distance at NORESS. Synthetic record sections are constructed by wavenumber integration in order to model the observed character of Lg and Rg in the two regions. The dominating factor in the difference of Lg characteristics turns out to be the velocity gradient in the lower crust. A few earthquakes near ARCESS are also studied. Their depths can be constrained on the basis of phase velocities and depth phases. For reliable phase identification, however, the composition of Lg in the region needs to be accurately known. Text Arctic Defense Technical Information Center: DTIC Technical Reports database Arctic Norway
institution Open Polar
collection Defense Technical Information Center: DTIC Technical Reports database
op_collection_id ftdtic
language English
topic Geology
Geochemistry and Mineralogy
Seismology
*EARTH CRUST
*SEISMIC WAVES
*SEISMIC ARRAYS
VELOCITY
PROPAGATION
NORWAY
AZIMUTH
TRAVEL TIME
EARTH MANTLE
SEISMOGRAPHS
MOHOROVICIC DISCONTINUITY
SECONDARY WAVES
SEISMOLOGICAL STATIONS
ARCTIC REGIONS
PRIMARY WAVES(SEISMIC WAVES)
SEISMIC VELOCITY
AMPLITUDE
EARTHQUAKES
SURFACE WAVES
WAVE PROPAGATION
NORESS (NORWEGIAN EXPERIMENTAL SMALL SUBARRAY)
ARCESS (ARCTIC EXPERIMENTAL SMALL SUBARRAY)
REGIONAL WAVE PROPAGATION
RG-WAVE PHASE-VELOCITY
INVERSION FOR S-WAVE VELOCITY
LG WAVES
RG WAVES
PE62101F
WUPL760009AQ
SBI1
FISCAL YEAR 93
spellingShingle Geology
Geochemistry and Mineralogy
Seismology
*EARTH CRUST
*SEISMIC WAVES
*SEISMIC ARRAYS
VELOCITY
PROPAGATION
NORWAY
AZIMUTH
TRAVEL TIME
EARTH MANTLE
SEISMOGRAPHS
MOHOROVICIC DISCONTINUITY
SECONDARY WAVES
SEISMOLOGICAL STATIONS
ARCTIC REGIONS
PRIMARY WAVES(SEISMIC WAVES)
SEISMIC VELOCITY
AMPLITUDE
EARTHQUAKES
SURFACE WAVES
WAVE PROPAGATION
NORESS (NORWEGIAN EXPERIMENTAL SMALL SUBARRAY)
ARCESS (ARCTIC EXPERIMENTAL SMALL SUBARRAY)
REGIONAL WAVE PROPAGATION
RG-WAVE PHASE-VELOCITY
INVERSION FOR S-WAVE VELOCITY
LG WAVES
RG WAVES
PE62101F
WUPL760009AQ
SBI1
FISCAL YEAR 93
Vogfjord, Kristin S.
Langston, Charles A.
Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
topic_facet Geology
Geochemistry and Mineralogy
Seismology
*EARTH CRUST
*SEISMIC WAVES
*SEISMIC ARRAYS
VELOCITY
PROPAGATION
NORWAY
AZIMUTH
TRAVEL TIME
EARTH MANTLE
SEISMOGRAPHS
MOHOROVICIC DISCONTINUITY
SECONDARY WAVES
SEISMOLOGICAL STATIONS
ARCTIC REGIONS
PRIMARY WAVES(SEISMIC WAVES)
SEISMIC VELOCITY
AMPLITUDE
EARTHQUAKES
SURFACE WAVES
WAVE PROPAGATION
NORESS (NORWEGIAN EXPERIMENTAL SMALL SUBARRAY)
ARCESS (ARCTIC EXPERIMENTAL SMALL SUBARRAY)
REGIONAL WAVE PROPAGATION
RG-WAVE PHASE-VELOCITY
INVERSION FOR S-WAVE VELOCITY
LG WAVES
RG WAVES
PE62101F
WUPL760009AQ
SBI1
FISCAL YEAR 93
description Wave propagation of crustal phases near the ARCESS array is examined and compared to characteristics near the NORESS array, with emphasis on Lg and its composition. f-k analysis is applied to the data, to identify arrivals in the records, then a composite of array beams is used to approximate each event. Record sections of composite-seismograms are constructed for different directions from ARCESS, to study propagational characteristics with distance and azimuth. Near surface velocity under NORESS and ARCESS is obtained through inversion of Rg wave dispersion curves. A composite ARCESS record section is compared to a NORESS record section of events located in the Caledonides. The differences that emerge are that Lg in the Caledonian region, north of NORESS, is dominated by discrete arrivals representing Moho reflections, with the order of reflection increasing with distance. In the Archean ARCESS region, however, Lg is dominated by turning waves, also with the order of reverberation increasing with distance, but with each confined to a small distance range. Rg wave propagation in the ARCESS region is much more efficient than in the Caledonian NORESS region, as Rg is observed to 400 km distance at ARCESS, but only to 200 km distance at NORESS. Synthetic record sections are constructed by wavenumber integration in order to model the observed character of Lg and Rg in the two regions. The dominating factor in the difference of Lg characteristics turns out to be the velocity gradient in the lower crust. A few earthquakes near ARCESS are also studied. Their depths can be constrained on the basis of phase velocities and depth phases. For reliable phase identification, however, the composition of Lg in the region needs to be accurately known.
author2 PENNSYLVANIA STATE UNIV UNIVERSITY PARK DEPT OF GEOSCIENCES
format Text
author Vogfjord, Kristin S.
Langston, Charles A.
author_facet Vogfjord, Kristin S.
Langston, Charles A.
author_sort Vogfjord, Kristin S.
title Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
title_short Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
title_full Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
title_fullStr Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
title_full_unstemmed Wave Propagation Characteristics of Short-Period Crustal Phases Near ARCESS and NORESS
title_sort wave propagation characteristics of short-period crustal phases near arcess and noress
publishDate 1993
url http://www.dtic.mil/docs/citations/ADA265959
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA265959
geographic Arctic
Norway
geographic_facet Arctic
Norway
genre Arctic
genre_facet Arctic
op_source DTIC AND NTIS
op_relation http://www.dtic.mil/docs/citations/ADA265959
op_rights Approved for public release; distribution is unlimited.
_version_ 1766335452768370688

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