Magnitude
9.1 - OFF THE WEST COAST OF NORTHERN SUMATRA
http://earthquake.usgs.gov/earthquakes/eqinthenews/2004/us2004slav/
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2004 December 26 00:58:53 UTC
Details
Summary
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Scientific & Technical
Additional Info
Earthquake
Details
This event has been reviewed by a
seismologist.
Magnitude 9.1
Date-Time
Sunday, December 26, 2004 at 00:58:53 UTC
Sunday, December 26, 2004 at 07:58:53 AM at
epicenter
Time of Earthquake in other Time Zones
Location 3.316°N, 95.854°E
Depth 30 km (18.6 miles) set by location
program
Region OFF THE WEST COAST OF NORTHERN SUMATRA
Distances 250 km (155 miles) SSE of Banda Aceh, Sumatra,
Indonesia
300 km (185
miles) W of Medan, Sumatra, Indonesia
1260 km (780
miles) SSW of BANGKOK, Thailand
1590 km (990
miles) NW of JAKARTA, Java, Indonesia
Location
Uncertainty horizontal +/- 5.6 km (3.5
miles); depth fixed by location program
Parameters NST=276, Nph=276, Dmin=654.9 km,
Rmss=1.04 sec, Gp= 29°,
M-type=teleseismic
moment magnitude (Mw), Version=U
Source
USGS NEIC (WDCS-D)
Event ID us2004slavPhase Data
http://neic.usgs.gov/neis/eq_depot/2004/eq_041226/neic_slav_p.html
Explanation of Parameters
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Phase Data Information
Explanation of Phase Data Listing
Sample Phase Data Listing
Header Lines:
These lines give information about the hypocenter or location of the
earthquake.
date
The top line shows the UTC
date, followed by the day of the year in parentheses.
ot
Origin time in Coordinated
Universal Time (UTC) and the 90% marginal confidence interval for time. If the
marginal confidence interval is exactly 0, the solution has been held to a
solution computed by some other agency or by some other special processing at
NEIC. The source of this solution is then shown in angle brackets, as in <PAS>.
Most of these source codes are network codes shown on the Networks page of the
on-line Seismograph Station Codes and Coordinates. Other codes which may appear
here include:
GM - U.S. Geological
Survey, Menlo Park, California
GS - U.S. Geological
Survey, NEIC, Golden, Colorado
MACR - solution held to
the approximate center of the area where the earthquake was reported felt.
The final item on this
line is the name of the geographic region name using the system of Flinn,
Engdahl and Hill (1974) with occasional name changes. The boundaries of these
regions are defined at one-degree intervals and differ slightly from irregular
political boundaries.
lat
Geographic latitude in decimal
degrees (north positive, south negative) and the 90% marginal confidence
interval for latitude.
lon
Geographic longitude in
decimal degrees (east positive, west negative) and the 90% marginal confidence
interval for longitude.
The NEIC "official"
preliminary magnitude for the earthquake is printed on the right side of this
line, in the form, MAGNITUDE n.n XX (SRC) - for example, MAGNITUDE 5.4 MS (GS).
n.n - is the preliminary
magnitude value determined for this quake. It may be changed over the next
days, weeks or months as additional data are received from other observatories.
Note that the "official" magnitude will NOT get updated on this
listing, because the solution is loaded to the web only once.
(SRC) - the source
(contributor) of the magnitude computation. GS means the USGS/NEIC.
dep
Depth in kilometers below the
surface of the Earth and the 90% marginal confidence interval on depth OR one
of the following phrases
(geophysicist) - depth
assigned by the analyst who reviewed the solution.
(normal depth) - depth
assigned by the computer or the analyst to 33 kilometers, defined as
"normal" depth in the Jeffreys-Bullen travel time tables.
(depth phases) - depth
restrained by the computer program based on 2 or more compatible pP-P time
intervals.
distance
The next line gives a distance in miles and kilometers from a town, city
or other reference point. The distances are rounded to the nearest 5 miles and
nearest 5 kilometers. EACH is computed independently, to avoid compounding the
rounding errors. For example, 7.6 miles (about 12.2 kilometers) will be rounded
to both 10 miles AND 10 km, even though 10 miles is approximately 16 km.
This line may be followed by
other lines of text, giving felt or damage information that was available at
the time the solution was prepared. Note that this information does NOT get
updated on this listing, because the solution is uploaded to the website only
once.
nph
The number of phases (arrival
times) used and associated to the solution. This is followed by the standard
error (se) of the observations used (in seconds). On the right side of this
line is one of the following words describing the quality of the epicentral
solution:
Earthquake Location Quality:
A is good, B is fair, C is
poor, D is bad
held
solution held (fixed) to
some other computation, usually one contributed by some other agency.
error ellipsoid
The components of the 90%
confidence error ellipsoid. In other words, statistically there is a 90% chance
that the "true" location of the earthquake is within this ellipsoid.
For each component (separated by semi-colons), the first number is the strike
(azimuth, in degress clockwise from north) of the semi-axis, the next number is
the dip of the semi-axis (in degrees downward, with 0 meaning a horizontal
axis), and the third number is the value (in kilometers) of the semi-axis. The
length and orientation of the three semi-axes specify the orientation, size and
shape of the error ellipsoid. If the last component is all zeroes, the depth of
the event has been held by the location program, and the remaining components
refer to the 90% confidence horizontal ellipse instead of a full ellipsoid.
Station Data Lines:
The stations and their readings associated with the event are listed in
increasing time order, according to the first arrival time for each station,
one phase per line. The contents of each column is described below.
sta
The international station code
for this station. The code is given only for the first arrival, and remains in
effect until a new station code is given.
phase
The phase code, using standard
seismological nomenclature, with two major exceptions. Codes ending in
"?" (the phases P? and ?) are phases picked automatically by the
computer and have not been reviewed or repicked by a human analyst. The phase
LR is a dispersed surface wave, and therefore has no true "arrival
time." The LR time shown is an approximation, assuming that the wave
packet is traveling at 3.9 km/sec, and is used simply as means to associate the
surface wave magnitude data. The LR times themselves are not used in the
hypocenter computation.
arrival
The arrival time (onset, or
beginning time) of the phase, in UTC. See note above about "arrival
times" of LR.
res
The residual, or time
difference, between the observed arrival time of the phase and the theoretical
arrival time, in seconds. A positive residual means the observed time is later
than the time predicted by the travel-time tables. The 1940 Jeffreys-Bullen P
and 1968 Bolt PKP tables are used. An X following the residual indicates that
the arrival time was not used (ie. given a weight of zero) in the solution.
dist
The central angle in degrees
of arc between the hypocenter and the station. One degree of arc on the surface
of the Earth equals approximately 111.2 kilometers or about 69.5 miles.
azm
The azimuthal angle in
degrees, measured clockwise from due north, from the epicenter to the station.
amp
The ground amplitude
(center-to-peak) of the wave used for the station magnitude identified by the
single character ahead of each amplitude value. The type character matches the
last letter of the magnitude types given in the last line of the header
information (b = mb, L = ML, etc). The amplitudes are expressed in micrometers
(microns) for MS data; in nanometers for all others except md. For duration
magnitudes (md), the value given in this column is not an amplitude, but the
time interval, in seconds, from the onset of the wave until the amplitude of
the signal never again exceeds twice the amplitude of the background noise just
prior to the onset of the event.
per
The period of the wave used
for the magnitude calculation, in seconds. This column is blank for duration
magnitude data.
mag
The magnitude value computed
using the duration or amplitude and period shown in the two columns immediately
to the left. An X after this value indicates it has been completely removed
from the calculation of the average magnitude for that type. All other
magnitude data are used to compute averages using the 25% trimmed mean
procedure of Rosenberger and Gasko (1983).
The final line of the file shows the UTC date and time that the listing
was generated.
See also: Magnitude Definitions Used by the NEIC
References
Bolt, B.A., 1968, Estimation of PKP travel times, Bulletin of the
Seismological Society of America, v. 58, pp. 1305-1324.
Choy, G. L., and Boatwright, J. L., 1995, Global patterns of radiated
seismic energy and apparent stress: Journal of Geophysical Research, v. 100, p.
18205-18228.
Flinn, E.A., Engdahl, E.R. and Hill, A.R., 1974, Seismic and
geographical regionalization, Bulletin of the Seismological Society of America,
v. 64, pp. 771-993.
Gutenberg, B. and Richter, C.F., 1956, Magnitude and energy of
earthquakes, Annali di Geofisica, v. 9, no. 1, pp. 1-15.
Jeffreys, H. and Bullen, K.E., 1940, Seismological Tables, British
Association for the Advancement of Science, Gray Milne Trust. Reprinted 1970.
Nuttli, O.W., 1973, Seismic wave attenuation and magnitude relations for
eastern North America, Journal of Geophysical Research, v. 78, no. 5, pp.
876-885.
Richter, C.F., 1935, An instrumental earthquake scale: Bulletin of the
Seismological Society of America, v. 25, pp. 1-32.
Rosenberger, J.L. and Gasko, M., 1983, Comparing location estimators:
trimmed means, medians and trimean, Understanding Robust and Exploratory Data Analysis,
ed. D.C. Hoaglin, F. Mosteller and J.W. Tukey, John Wiley, NY.
26 DEC 2004 (361)
ot = 00:58:53.49 +/-
0.14 OFF W COAST OF NORTHERN
SUMATRA
lat = 3.307
+/- 4.6
lon = 95.951
+/- 3.8 MAGNITUDE 9.0 (HRV)
dep = 30.0
(geophysicist)
250 km (155 miles) SSE of
Banda Aceh, Sumatra, Indonesia
300 km (185 miles) W of
Medan, Sumatra, Indonesia
1260 km (780 miles) SSW of
BANGKOK, Thailand
1590 km (990 miles) NW of
JAKARTA, Java, Indonesia
nph = 387 of 742
se = 1.17 FE=705 A
error ellipse = ( 32.1, 0.0,
6.5;122.1, 0.0, 4.2;
0.0, 0.0, 0.0)
mb = 7.0 (131) ML = 0.0 (
0) mblg = 6.7 ( 6) md
= 0.0 ( 0) MS = 8.8 (118)
sta phase
arrival res dist azm
amp per mag amp
per mag sta
PPI eP
01:00:20.00 2.4 5.8 130 PPI
PENI ePc 01:01:49.20 -3.7X
12.7 134 b:1.3+3 .53 7.3X
PENI
PULI ePc 01:02:04.70 -3.5X
13.9 134 b:5.1+3 .36 7.7X
PULI
COCO ePd
01:02:23.71 -5.3X 15.4 177 g:2.1+1 1.2 6.5 b:1.4+4 1.1 7.1 COCO
CM31 ePc 01:02:28.60 0.6
15.3 11 g:1.0+1 .90 6.3 b:3.6+3 .65 6.8 CM31
PALK ePd 01:02:28.98 -3.6
15.7 285 g:2.8+1 1.0 6.7 b:3.9+3
.77 6.7 PALK
QIZ iPc
01:03:32.61 1.1 20.7
40 g:2.5+1 1.2 6.8 b:7.3+3 1.0
7.0 QIZ
LR 01:08:43.60 S:3.1+3 21. 7.7X
SRDI ePc 01:03:42.20 1.1
21.6 123 b:2.6+3 1.0 6.6
SRDI
HYB ePc
01:03:46.00 -0.5 22.1 311 HYB
eS 01:07:49.50 S res =
-0.5X
KELI ePc 01:03:46.80 4.0X
21.7 122 b:2.1+3 1.2 6.4
KELI
RATI ePd 01:03:54.90 -0.1
22.9 122 b:1.7+3 1.8 6.2 RATI
KEDI ePc 01:03:56.30 0.0
23.0 119 b:8.4+2 1.0 6.2 KEDI
TANI ePc 01:04:09.40 0.3
24.4 106
TANI
DGAR ePd 01:04:18.82 -3.0
25.8 246 g:2.3+1 1.3 6.9 b:2.4+4
1.3 7.6 DGAR
LR 01:11:01.52 S:3.8+3 22. 7.9
LSA iPc
01:04:29.60 -0.6 26.6 351 g:1.5+1 1.0 6.8 b:7.6+3 .70 7.4 LSA
LR 01:11:25.78 S:2.6+3 20. 7.8
ENH iPc
01:04:56.24 -1.0 29.7
24 b:5.4+3 1.3 7.2
ENH
LR 01:12:58.22 S:2.8+3 20. 7.9
TATO eP 01:05:22.65 -0.7
32.7 46 b:8.5+3 1.3 7.5 TATO
LR 01:14:26.21 S:1.1+4 20. 8.5
MBWA ePc 01:05:31.02 -1.0
33.7 137 b:1.6+3 .97 6.9
MBWA
LR
01:15:00.73
S:3.2+3 22. 8.0
BJT iPc
01:06:33.77 0.9 40.9
24 b:1.0+4 1.1 7.5
BJT
LR 01:18:16.11 S:1.6+4 20. 8.9
NWAO eP 01:06:35.91 -0.4
41.3 152 b:2.6+3 1.3 6.8 NWAO
LR 01:18:36.91 S:2.9+3 22. 8.1
AAA eP
01:06:51.60 -0.5 43.2 340 AAA
AAK ePc
01:06:54.35 -0.8 43.6 337 b:8.1+3 1.2 7.4 AAK
LR 01:19:27.56 S:2.9+3 20. 8.2
INCN ePc 01:06:58.57 -0.8
44.1 36 b:4.0+3 1.1 7.1 INCN
LR 01:19:50.83 S:1.9+4 19. 9.0
WRAB eP 01:06:58.93 -1.4
44.2 123 b:4.1+3 .66 7.4 WRAB
LR 01:20:01.59 S:1.1+3 21. 7.8
TAS eP
01:07:01.00 -3.6X 44.8 331 TAS
YOMI ePc 01:07:03.30 -3.2X
45.0 97 YOMI
MKAR iP 01:07:04.70
-0.5 44.9 347 MKAR
KS15 ePc 01:07:04.78 -0.3
44.8 37 KS15
ULN iPc
01:07:09.10 -0.5 45.4
10 b:1.7+3 .81 7.0
ULN
LR 01:20:23.46 S:1.3+4 22. 8.8
TLY iPc
01:07:34.46 -0.1 48.6
6 b:1.6+3 .88 7.1
TLY
LR 01:21:54.89 S:3.6+3 21. 8.3
VAN eP
01:07:37.80 1.5 48.8 320 VAN
GUMO eP 01:07:38.80 -1.9
49.4 75 b:1.5+3 1.0 7.0 GUMO
LR 01:22:25.35 S:4.4+3 21. 8.4
HIA ePc
01:07:45.50 -0.2 50.1
20 b:4.5+3 1.2 7.4
HIA
LR 01:22:38.07 S:2.8+4 19. 9.3
MDJ ePc
01:07:50.58 0.4 50.7
31 b:2.6+3 1.0 7.2
MDJ
LR 01:22:56.66 S:8.5+3 20. 8.8
MAJO ePc 01:07:51.69 -1.3
51.0 44 b:7.7+2 .86 6.7 MAJO
LR 01:23:08.52 S:9.2+3 20. 8.8
MAT eP
01:07:52.00 -1.0 51.0
44 b:3.6+2 1.5 6.1
MAT
eS 01:15:35.00 S res =
26.5X
PMG ePc
01:08:04.21 -0.6 52.6 104 b:2.0+3 .90 7.1 PMG
LR 01:23:59.15 S:1.8+3 22. 8.1
BRVK ePc 01:08:13.31 -0.9
53.9 341 b:3.9+3 1.0 7.4
BRVK
LR 01:24:22.70 S:3.0+3 22. 8.3
CTAO ePc 01:08:18.79 -0.6
54.6 117 b:1.5+3 .93 7.0
CTAO
LR 01:24:56.55 S:3.3+3 20. 8.4
STKA ePc 01:08:25.93 -1.4
55.7 133
STKA
MAK eP
01:08:46.00 0.2 58.3 320 MAK
GNI iPc
01:08:49.13 -1.1 58.9 316 b:3.0+3 .99 7.4 GNI
LR 01:26:43.42 S:3.6+3 22. 8.5
KMBO iPd 01:08:49.19 -1.0
58.8 267 b:4.5+2 1.0 6.5 KMBO
eS 01:17:37.03 S res =
42.5X
LR 01:26:42.43 S:8.8+3 22. 8.8
YSS ePc
01:08:52.78 0.0 59.3
35 b:8.8+2 1.0 6.8
YSS
LR 01:27:04.53 S:8.7+3 21. 8.9
ARU eP
01:09:00.87 -1.5 60.8 337 b:6.0+3 1.2 7.6 ARU
LR 01:27:37.45 S:2.2+3 21. 8.3
KIV ePc
01:09:08.91 -1.6 61.9 319 b:2.5+3 .99 7.3 KIV
LR 01:28:08.63 S:1.3+3 20. 8.1
MALT ePc
01:09:15.90 -0.7 62.8 312 b:2.3+3 1.1 7.2 MALT
EIL
ePc 01:09:19.20 -0.7
63.3 302 b:8.6+2 .97 6.8 EIL
MBAR iPd
01:09:31.51 -2.0 65.3 268 b:1.4+3 1.3 6.9 MBAR
LR 01:29:46.45 S:1.6+3 22. 8.2
ANN iPc
01:09:33.00 -2.3 65.7 318 ANN
CSS iPc
01:09:34.98 -1.3 65.8 307 b:6.0+3 1.4 7.5 CSS
MAMC iPc 01:09:38.70 1.6
65.9 307
MAMC
ALFC iPc 01:09:40.30 0.0
66.4 307
ALFC
AKMC P 01:09:42.00 0.5
66.6 307
AKMC
PPCY P 01:09:42.60 1.4
66.6 307
PPCY
SIM iPc
01:09:48.40 -1.4 68.0 318 SIM
ISP ePc
01:09:52.11 -2.5 68.7 309 b:3.1+2 1.3 6.2 ISP
LSZ ePd
01:09:58.30 -1.9 69.5 252 b:5.7+2 1.5 6.4 LSZ
LR 01:31:48.91 S:6.0+3 21. 8.8
CASY ePd 01:10:01.33 -1.9
70.2 174 b:1.7+4 1.5 7.9X CASY
LR 01:32:19.52 S:4.0+3 20. 8.7
OBN ePc
01:10:01.66 -1.6 70.2 328 b:1.3+3 1.4 6.8 OBN
LR 01:32:05.10 S:2.3+3 22. 8.4
MA2
ePc 01:10:01.69
-0.4 70.0 26 b:9.6+2 1.3 6.7 MA2
LR 01:32:06.80 S:4.2+3 20. 8.7
PET ePc
01:10:08.07 -1.5 71.2
35 b:2.7+2 .95 6.3
PET
LR 01:32:42.44 S:7.2+3 20. 8.9
KIS iPc
01:10:13.00 -2.1 72.1 318 KIS
SANT ePc 01:10:14.58 -2.3
72.4 307 b:6.4+2 1.2 6.5
SANT
CFR iPd
01:10:15.32 0.1 72.1 317 CFR
GVD ePc
01:10:20.35 -1.9 73.2 305 b:2.5+3 1.0 7.2 GVD
ALN P
01:10:20.70 1.9 72.7 312 ALN
VRI Pc
01:10:21.42 -0.5 73.2 317 VRI
BRD iPc
01:10:22.19 1.9 73.0 317 BRD
LBTB ePd 01:10:23.58 -1.7
73.7 243 b:6.3+3 1.4 7.4
LBTB
LR 01:33:49.25 S:3.1+3 20. 8.6
ISR
iPd 01:10:23.85 2.1 73.2 316 ISR
LOS
P 01:10:26.88 4.7X
73.2 311 LOS
MAW
ePd 01:10:28.44 -0.2
74.5 193 b:1.7+3 1.3 6.9
MAW
LR 01:34:18.47 S:3.0+3 19. 8.6
BOSA ePd 01:10:29.17 -2.1
74.8 239 b:8.4+2 1.3 6.6
BOSA
LR 01:34:19.54 S:2.8+3 20. 8.6
SRS P
01:10:29.95 0.1 74.6 312 SRS
PAIG P 01:10:30.62 2.3
74.3 310 PAIG
THE P
01:10:31.09 -1.0 75.0 311 THE
PUL iPc
01:10:31.30 -0.9 75.1 332 PUL
VAY iP
01:10:32.20 -2.1 75.4 312 VAY
iS 01:20:16.60 S res =
4.3X
SOH P
01:10:32.57 1.9 74.7 311 SOH
AGG P
01:10:34.15 0.5 75.2 309 AGG
MTUR iPc 01:10:34.25 6.3X
74.2 316
MTUR
LIT P
01:10:34.58 0.8 75.2 311 LIT
OUR P
01:10:34.59 7.3X 74.1 311 OUR
KNT P
01:10:35.16 2.3 75.1 312 KNT
GRG P
01:10:36.56 1.7 75.4 311 GRG
XOR P
01:10:36.79 6.7X 74.6 310 XOR
SKO iP 01:10:38.30
-1.4 76.3 312 b:1.9+2 .80
6.2 SKO
i 01:10:44.30 depth =
19.2X
i 01:10:54.30 1.6X
iS 01:20:27.70 S res =
5.1X
LR 01:30:27.70
VSU iPc
01:10:38.90 -1.1 76.4 330 VSU
LVZ iPc
01:10:39.20 -0.8 76.4 340 LVZ
KWP eP
01:10:40.90 -0.7 76.7 320 KWP
epP 01:10:47.90
depth = 22.4X
ePcP 01:10:57.90 4.9X
eS 01:20:36.00 S res =
9.6X
eSS 01:20:44.70
eSKS 01:20:53.00 1.5X
eSKS 01:20:54.30 2.8X
UZH ePr
01:10:41.00 -1.1 76.7 319 UZH
MEV P
01:10:41.35 2.2 76.2 310 MEV
OHR iP
01:10:42.20 0.4 76.7 311 OHR
i 01:10:46.10 4.3X
i 01:10:56.30 1.5X
i
01:11:11.20 18.0X
iS 01:20:23.90 S res =
-2.8X
i 01:20:55.50 3.6X
IGT P
01:10:42.49 -0.2 76.8 310 IGT
SUW ePc
01:10:43.24 -1.5 77.2 325 b:1.4+3 1.0 6.9 SUW
eP 01:10:50.20 5.4X
ePcP 01:10:57.70 2.3X
ePP 01:13:37.10 -1.8X
eS 01:20:41.90 S res =
9.4X
eSKS 01:20:59.00 3.6X
eScS 01:21:02.90
FNA P
01:10:44.20 5.1X 76.2 311 FNA
BIA iP
01:10:44.50 5.0X 76.2 311 BIA
i 01:10:55.90 3.4X
i 01:11:02.50 10.0X
KAF eP
01:10:46.10 -0.8 77.7 333 KAF
PVY iPd
01:10:46.75 0.4 77.5 313 PVY
IVA iPd
01:10:48.26 1.5 77.5 313 IVA
TTG iPd 01:10:48.53 -0.4
78.0 313 TTG
WAR
eP 01:10:49.00 -1.0
78.2 323 WAR
epP
01:10:56.90 depth = 25.2X
ePcP 01:11:03.50 4.1X
ePP 01:13:46.90 0.1X
eS 01:20:50.80 S res =
8.2X
eSS 01:20:59.10
eSKS 01:21:05.70 3.4X
eScS 01:21:17.00
LR 01:31:17.00 S:4.9+3 32. 8.6X
ULC iPd
01:10:49.24 0.4 77.9 312 ULC
PSZ iPc 01:10:49.51
-0.9 78.2 318 b:3.6+3 1.3
7.2 PSZ
NKY iPd
01:10:50.38 -0.1 78.2 313 NKY
UPM iPd
01:10:50.83 -0.3 78.3 313 UPM
PLE iPd
01:10:50.89 1.7 78.0 313 PLE
BUM iPd
01:10:51.39 0.9 78.2 312 BUM
HCY iPd
01:10:51.90 -0.2 78.5 313 HCY
BRY iPd
01:10:51.94 -0.4 78.5 313 BRY
OJC eP
01:10:52.70 0.2 78.6 320 OJC
eS 01:20:40.50 S res =
-7.0X
LR 01:30:40.50 S:2.7+3 21. 8.6
SUR ePd
01:10:56.03 -0.7 79.3 236 b:2.5+3 1.2 7.1 SUR
LR 01:36:28.68 S:8.6+2 21. 8.1
BILL ePc 01:10:56.23 -1.6
79.7 21 b:4.8+2 1.2 6.4 BILL
LR 01:36:41.44 S:1.4+4 19. 9.3
TIP ePc
01:10:56.99 -0.9 79.5 309 TIP
OKC ePc
01:10:57.20 -0.8 79.6 320 OKC
e
01:11:12.50 1.5X
eS
01:21:05.70 S res = 7.6X
FX1
ePc 01:10:57.39 -0.7
79.7 37 FX1
RAC
eP 01:10:57.90 -0.1
79.6 320
RAC
ePcP 01:11:05.50
-0.3X
eS 01:20:47.80 S res = -10.3X
eSKSac 01:21:12.00
-0.6X
LR 01:31:12.00 S:2.6+3 22. 8.5X
MORC ePc 01:10:59.48 -0.6
80.0 320 b:4.9+3 1.5 7.3
MORC
ARE0 ePc 01:10:59.77 -0.7
80.1 340
ARE0
VKA iPc
01:11:02.70 -0.8 80.6 318 VKA
JCZ P
01:11:02.90 2.4 80.0 136 JCZ
KSP ePc
01:11:04.30 -0.7 80.9 321 KSP
epP
01:11:06.40 depth = 6.7X
e
01:11:11.30 -0.1X
e
01:11:19.10 1.1X
eS
01:21:14.00 S res = 2.3X
eSKS 01:21:23.30 1.7X
LR 01:31:23.30 S:7.6+3 23. 9.0X
DPC
ePc 01:11:04.40 -0.3
80.8 320 DPC
e 01:11:19.60 1.9X
eS
01:21:24.50 S res = 13.4X
LR 01:31:24.50 S:3.5+3 19. 8.7
SMY eP
01:11:04.50 3.5X 80.2
37 b:6.2+2 1.1 6.5
SMY
LR 01:21:04.50 S:2.1+3 18. 8.5
LBZ P
01:11:05.30 -0.8 81.1 136 LBZ
UPC ePc
01:11:05.40 -0.3 81.1 320 UPC
e
01:11:20.10 1.3X
eS
01:21:26.40 S res = 13.2X
LEGS eP
01:11:05.40 -0.8 81.1 316 LEGS
ARSA iPd
01:11:05.90 -0.1 81.1 317 b:9.5+1 1.1 5.7X ARSA
i 01:11:22.90 3.9X
TUZ P
01:11:06.10 0.1 81.1 137 TUZ
PERS eP 01:11:06.58 -0.7
81.3 317
PERS
e
01:11:13.88 0.5X
CII
eP 01:11:07.84 -0.9
81.6 312 b:1.6+3 1.0 7.0
CII
LJU
eP 01:11:08.29 -0.8
81.7 316 LJU
ePcP
01:11:16.02 1.1X
e
01:11:23.13 1.0X
eS
01:21:23.35 S res = 3.5X
eSS 01:26:33.46
RPZ eP
01:11:08.70 0.1 81.6
135 RPZ
GKP eP
01:11:08.80 5.6X 80.6 323 GKP
ePcP 01:11:15.80 5.8X
eS 01:21:15.90 S res =
7.5X
eSS 01:21:20.40
eSKS 01:21:25.20 5.8X
LR 01:31:25.20 S:6.0+3 32. 8.7X
PRU ePc
01:11:09.70 -0.8 82.0 320 b:4.0+2 2.2 6.1 PRU
e 01:11:24.20 0.7X
eS 01:21:36.20 S res =
13.7X
LR 01:31:36.20 S:3.6+3 21. 8.7
BSD iP
01:11:09.80 -1.7 82.2 325 b:1.6+3 1.1 7.0 BSD
iS 01:21:34.40 S res =
10.0X
VOY eP
01:11:10.00 -1.5 82.1 316 VOY
MOA iPd
01:11:10.10 -0.6 82.0 318 b:6.7+1 1.6 5.4X MOA
i 01:11:27.00 3.3X
OBKA iPd 01:11:10.60 1.3
81.7 316 b:1.1+2 1.6 5.6X
OBKA
i 01:11:26.10 3.7X
AQU ePc
01:11:11.15 -1.3 82.3 312 b:1.1+3 1.4 6.7 AQU
KHC ePc 01:11:11.30 -2.2
82.5 319
KHC
e
01:11:23.20 depth = 39.1X
eS
01:21:28.20 S res = -0.2X
LR 01:31:28.20 S:2.5+3 18. 8.6
PVCC eP 01:11:11.70 1.1
82.0 320
PVCC
e 01:11:25.30 1.7X
eS 01:21:31.00 S res =
8.3X
LR 01:31:31.00 S:2.5+3 15. 8.7X
ROBS eP 01:11:11.86 -1.0
82.4 316 ROBS
e 01:11:19.00 1.0X
KBA iPd
01:11:12.80 -1.1 82.6 317 b:7.8+1 1.8 5.5X KBA
i 01:11:29.80 2.8X
RUE ePc
01:11:13.17 -0.7 82.6 322 b:4.9+2 1.0 6.5 RUE
THZ P
01:11:13.20 -0.3 82.5 133 THZ
RGN eP
01:11:13.36 -2.6 83.0 324 b:3.1+3 1.4 7.2 RGN
CLL eP
01:11:16.00 0.0 83.0 321 b:1.5+3 1.5 6.9 CLL
i 01:11:29.20 0.1X
eS 01:21:45.00 S res =
11.7X
LR 01:31:45.00 S:3.5+3 19. 8.7
NKC
ePc 01:11:16.90 -0.7
83.3 320 NKC
e
01:11:31.00 0.3X
eS
01:21:45.20 S res = 8.8X
WTTA iPc
01:11:18.40 -1.6 83.7 317 b:8.8+1 .80 6.0 WTTA
i 01:11:35.80 2.8X
WATA iPd 01:11:18.60 -1.6
83.8 317 b:4.8+0 .70 4.8X
WATA
i 01:11:26.60 2.4X
i 01:11:35.20 2.0X
ODZ P
01:11:19.50 10.9X 81.6 136 ODZ
SQTA iPd 01:11:20.00
-1.4 84.0 317 b:1.3+1 .60
5.3X SQTA
i 01:11:23.50 -1.8X
i 01:11:36.30 1.8X
OUZ eP
01:11:20.10 10.0X 81.8 126 OUZ
NNZ P
01:11:20.20 5.5X 82.7 132 NNZ
MOX eP
01:11:20.30 -0.1 83.9 320 MOX
e
01:11:34.30 0.8X
HIZ
eP 01:11:20.40 2.2
83.4 129 HIZ
MOTA iPd
01:11:20.40 -1.4
84.1 317 b:5.0+0 .90 4.7X MOTA
i
01:11:37.90 3.0X
NAO01eP 01:11:22.52 -2.0
84.7 331 b:6.9+2 .90 6.9
NAO0
LR 01:38:59.77 S:6.7+3 22. 9.0
VLC eP 01:11:22.70
-1.2 84.5 314 b:1.4+3 1.0
7.1 VLC
DAVA iPc 01:11:25.30 -0.7
84.9 317 b:1.6+1 1.2 5.1X
DAVA
i 01:11:42.50 3.4X
VSL eP
01:11:25.63 -2.1 85.3 309 b:2.0+2 1.1 6.2 VSL
COP iP
01:11:26.10 7.1X 83.6 326 b:7.7+2 .90 6.9 COP
iS 01:21:53.10 S res =
13.9X
i 01:22:59.30
LR 01:32:59.30 S:2.4+3 22. 8.5
STU ePc
01:11:26.71 -1.4 85.4 318 b:7.0+1 .85 5.9 STU
FWVZ eP 01:11:27.00 5.2X
84.0 130
FWVZ
KIWB eP 01:11:27.40 -1.2
85.5 38 KIWB
PGF iPd 01:11:29.40 0.3
85.5 312 b:1.6+3 1.5 7.0 PGF
MAIM P 01:11:29.49 6.0X
84.5 314
MAIM
MIDW qP 01:11:29.67 0.5
85.5 62 b:1.4+3 1.5 7.0 MIDW
LR 01:39:34.94 S:1.8+3 22. 8.4
VINC P 01:11:30.54 5.7X
84.7 314
VINC
VALM P 01:11:30.81 6.3X
84.6 314
VALM
TGRZ P 01:11:30.90 7.8X
84.4 128 TGRZ
TOD
eP 01:11:31.30 1.9
85.7 319 TOD
GRAM P
01:11:31.62 6.5X 84.8 314 GRAM
BACM P 01:11:31.91 6.8X
84.8 314 BACM
GSTR eP 01:11:32.02 0.0
86.2 38 GSTR
CODM P 01:11:32.50 6.6X
84.9 314
CODM
FELD Pc 01:11:32.90 0.6
86.2 318
FELD
KTD
eP 01:11:33.70 1.9
86.1 319 KTD
LANF eP
01:11:34.40 1.7 86.3 319 LANF
WNVZ P
01:11:34.40 12.4X 84.1 130 WNVZ
CDF
iPd 01:11:34.50 -0.1
86.7 318 b:1.3+3 1.6 6.9 CDF
SBF
iPd 01:11:34.50 -0.1
86.7 314 b:1.2+3 1.0 7.1 SBF
MTW
P 01:11:34.50 11.7X
84.3 132
MTW
BBS eP 01:11:35.10 1.2
86.5 317 BBS
STR eP
01:11:35.10 2.3 86.3 318 STR
WLS eP
01:11:35.30 1.0 86.6 318 WLS
LIBD eP 01:11:35.50 2.1
86.5 318 LIBD
GENL P 01:11:35.51 6.5X
85.5 314
GENL
BNI ePc
01:11:35.86 -1.3 87.2 315 b:1.1+2 .90 6.1 BNI
HINF iPd 01:11:35.90 -0.1
87.0 318 b:7.9+2 1.6 6.7
HINF
AUTN eP 01:11:36.30 1.5
86.7 314
AUTN
RUP eP
01:11:36.30 1.2 86.8 319 RUP
MUD iP 01:11:36.30 8.0X
85.5 326 b:1.8+3 1.1 7.2 MUD
iS 01:22:03.10 S res =
5.4X
ECH eP
01:11:36.50 1.6 86.8 318 ECH
LOMF eP 01:11:36.70 0.5
87.0 317 LOMF
MOF eP
01:11:37.00 1.9 86.8 318 MOF
LPG iPd
01:11:37.20 0.2 87.1 315 b:1.0+3 .90 7.1 LPG
LPL iPd
01:11:37.30 0.3 87.1 315 b:1.2+3 1.0 7.1 LPL
HAU iPd 01:11:37.40 -0.2
87.3 318 b:7.6+2 1.0 6.9
HAU
LR
01:21:37.40
S:2.5+3 22. 8.6X
PCP P
01:11:37.42 6.8X 85.9 314 PCP
WLF eP
01:11:37.66 -0.2 87.4 319 b:4.4+3 1.5 7.5 WLF
MVIF eP 01:11:37.70 2.0
86.9 314
MVIF
SAOF eP 01:11:37.70 3.6X
86.6 314
SAOF
REVF eP 01:11:38.00 3.2X
86.7 313 REVF
FRF iPd
01:11:38.00 0.6 87.2 313 b:1.5+3 1.3 7.1 FRF
MBDF iPd 01:11:38.00 1.1
87.1 314 b:4.8+2 1.0 6.7
MBDF
TOUF eP 01:11:38.20 2.8
86.8 314 TOUF
IMI P
01:11:38.22 5.2X 86.3 314 IMI
ORX P
01:11:38.22 5.7X 86.2 315 ORX
FIN P
01:11:38.22 6.4X 86.1 314 FIN
ROB P
01:11:38.35 5.3X 86.3 314 ROB
LMR iPd
01:11:38.50 0.6 87.3 313 b:1.1+3 1.3 6.9 LMR
NEGI P 01:11:39.15 5.5X
86.5 314 NEGI
THEF eP 01:11:39.30 0.6
87.5 318
THEF
CABF iPd 01:11:39.30 0.5
87.5 316 b:8.5+2 1.0 7.0
CABF
TRAV P 01:11:39.54 6.2X
86.4 315
TRAV
MONE P 01:11:39.84 6.3X
86.4 314
MONE
ENR P
01:11:40.20 5.6X 86.7 314 ENR
ORIF iPd 01:11:40.30 0.4
87.7 315 b:9.7+2 1.2 7.0 ORIF
RFYF eP 01:11:40.70 0.5
87.9 318 b:6.9+2 1.2 6.8
RFYF
VNDA eP 01:11:40.75 -0.1
88.1 169 b:2.8+1 .53 5.8X
VNDA
BHB P
01:11:41.26 6.2X 86.8 315 BHB
PZZ P
01:11:41.39 5.6X 86.9 314 PZZ
RSP P
01:11:41.39 6.3X 86.8 315 RSP
STV P
01:11:41.53 6.6X 86.7 314 STV
GDM eP
01:11:41.80 2.7 87.6 315 GDM
MEZF iPd 01:11:42.10 0.5
88.1 318 b:9.2+2 1.0 7.0
MEZF
SMRF iPd 01:11:42.10 1.1
88.0 314 b:3.2+3 1.5 7.4 SMRF
SFTF eP 01:11:42.20 0.5
88.2 318 b:1.2+3 .80 7.2
SFTF
GIVF iPd 01:11:42.30 0.5
88.2 320 b:2.3+3 1.8 7.2
GIVF
LSD P
01:11:42.32 6.7X 86.8 315 LSD
FENE P 01:11:42.33 6.6X
86.9 315 FENE
GRN
eP 01:11:42.70 2.5
87.8 315 GRN
RRL
P 01:11:44.04 7.1X
87.1 315 RRL
VIVF iPd 01:11:44.40 0.5
88.6 315 b:1.4+3 1.4 7.1
VIVF
BAIF iPd 01:11:44.60 0.9
88.6 320 b:2.2+3 1.5 7.2
BAIF
SMF iPd
01:11:46.20 0.2 89.1 316 b:7.0+2 1.1 6.9 SMF
SBA eP
01:11:46.79 0.8 89.2 168 b:1.3+1 .83 5.3X SBA
LR 01:41:22.09 S:1.4+3 21. 8.4
SSF iPd
01:11:47.60 0.7 89.3 317 b:2.4+3 1.8 7.2 SSF
LASF iPd 01:11:47.70 0.9
89.2 314 LASF
PLDF eP 01:11:49.70 2.7
89.3 316
PLDF
BGF iPd
01:11:50.20 1.0 89.8 316 b:2.1+3 1.4 7.2 BGF
MENF eP 01:11:50.30 0.6
89.9 320
MENF
PYM eP
01:11:50.40 1.3 89.7 316 PYM
HYF iPd
01:11:50.60 1.0 89.8 317 HYF
AGO eP 01:11:51.40 2.9
89.6 316 AGO
LBL eP
01:11:51.40 2.9 89.6 315 LBL
SJAF eP 01:11:51.80 1.1
90.1 312
SJAF
TCF iPd
01:11:52.30 0.9 90.2 316 b:1.3+3 1.6 7.0 TCF
NIKO eP 01:11:53.26 0.7
90.5 37 NIKO
MTLF iPd 01:11:53.40 0.8
90.5 313 b:1.3+3 1.5 7.0
MTLF
CAF iPd
01:11:53.60 1.1 90.4 315 b:8.9+2 1.4 6.9 CAF
FILF eP 01:11:53.70 1.8
90.3 312
FILF
RJF iPd
01:11:55.30 1.2 90.8 315 b:1.2+3 1.4 7.0 RJF
LR 01:21:55.30 S:2.1+3 23. 8.5X
EJON P 01:11:56.06 5.3X
90.1 312
EJON
VALF eP 01:11:57.40 3.5X
90.7 312
VALF
MLS eP
01:11:57.70 1.1 91.3 313 MLS
LFF iPd
01:11:58.10 1.3 91.4 315 b:1.2+3 1.3 7.1 LFF
SALF eP 01:11:58.20 1.7
91.3 313
SALF
LDF iPd
01:11:58.20 0.7 91.6 319 b:2.9+3 1.6 7.4 LDF
FLN iPd
01:11:59.10 0.6 91.8 319 b:1.6+3 1.3 7.3 FLN
LR 01:21:59.10 S:3.1+3 21. 8.7
UNV eP
01:11:59.39 0.9 91.8
36 b:1.2+3 .85 7.3
UNV
LR 01:42:30.17 S:1.1+4 21. 9.3
EPF iPd
01:11:59.50 0.3 91.9 313 b:3.0+2 1.4 6.5 EPF
MFF iPd
01:11:59.50 0.8 91.8 317 b:1.7+3 1.3 7.3 MFF
DAG iPc 01:12:00.20 -0.2
92.3 348 b:6.8+1 .70 6.2 DAG
GRR
iPd 01:12:00.70 0.8
92.1 319 b:2.0+3 1.5 7.3 GRR
EIBI P
01:12:00.72 3.1X 91.5 309 EIBI
RESF eP
01:12:01.00 1.6 91.9 313 RESF
ESK eP
01:12:02.45 0.7 92.5 326 b:2.2+3 1.4 7.4 ESK
LR 01:42:41.54 S:5.4+2 20. 8.0
LABF eP 01:12:02.50 2.4 92.1 313 LABF
REYF eP 01:12:02.90 1.3
92.4 313
REYF
ETSF iPd 01:12:03.30 1.0
92.5 313 b:8.7+2 1.3 7.0 ETSF
ERTA P
01:12:03.74 3.5X 92.1 311 ERTA
VIEF eP
01:12:04.50 4.1X 92.1 313 VIEF
LARF eP 01:12:04.60 1.0
92.8 313
LARF
CART eP 01:12:04.71 -2.0
93.5 308 b:1.1+2 1.2 6.2 CART
SGMF iPd 01:12:05.90 0.7
93.2 319 b:9.8+2 1.4 7.0
SGMF
AFI qP
01:12:06.82 1.9 93.0 104 b:6.2+2 1.1 7.0 AFI
LR 01:43:11.62 S:7.0+2 21. 8.1
QSPA qP 01:12:07.00 2.0
93.2 180 b:7.8+2 1.3 7.0 QSPA
QUIF iPd 01:12:07.60 0.3
93.7 318 b:9.1+2 1.5 7.0
QUIF
ROSF iPd 01:12:08.10 0.8
93.7 319 b:9.8+2 1.5 7.0
ROSF
EBIE P 01:12:08.96
8.7X 92.1 313 b:4.7+3 3.4
7.3X EBIE
EMOS P 01:12:10.22 6.6X
92.8 311 b:5.7+3 3.7 7.4X EMOS
EBEN P
01:12:11.84 8.4X 92.8 309 EBEN
EALK P
01:12:11.92 6.6X 93.2 313 b:3.8+3 3.2 7.3X EALK
DLF eP
01:12:13.00 0.7 94.8 324 DLF
eP 01:12:22.60 10.3X
DSB eP
01:12:13.56 1.6 94.7 324 b:2.7+2 1.4 6.5 DSB
IMA eP 01:12:13.90 0.1
95.1 23 b:2.6+2 1.4 6.5 IMA
EMUR P
01:12:14.55 7.0X 93.7 308 EMUR
DCN
eP 01:12:15.20 0.9
95.2 324 DCN
eP
01:12:25.00 10.7X
DMUB eP
01:12:15.20 2.4 94.9 325 DMUB
eP
01:12:25.10 12.3X
ESLA eP 01:12:17.21 1.1
95.5 310 b:1.7+1 1.2 5.4X
ESLA
LR 01:44:06.78 S:7.7+3 20. 9.2
SNAA ePd 01:12:17.88 0.9
95.9 198 b:2.4+2 1.2 6.5
SNAA
iPc 01:12:22.80 5.8X
e
01:12:25.90 depth = 24.9X
e
01:12:27.70 depth = 30.6X
e
01:16:13.70 4.6X
e
01:16:52.10 -3.9X
GUD
P 01:12:17.92 1.8
95.5 311 b:2.9+1 1.0 5.7X GUD
ENIJ P
01:12:19.64 8.1X 94.5 307 b:8.6+3 3.0 7.7X ENIJ
EVIA P 01:12:19.88 8.2X
94.5 309 b:6.6+2 1.7 6.8 EVIA
ELAN P 01:12:20.21 8.6X
94.6 314
ELAN
EBAN P 01:12:22.08 5.6X
95.6 309 b:4.2+3 2.7 7.4
EBAN
ESDC P 01:12:22.46 6.4X 95.5 310 b:7.0+0 .75 5.2X ESDC
ELUQ P 01:12:23.24 4.6X
96.1 308 b:3.3+3 2.8 7.3
ELUQ
ERON P 01:12:23.46 6.0X
95.8 308 b:2.2+1 .72 5.7X ERON
RSO eP
01:12:23.56 -1.0 97.5
28 RSO
SPU eP
01:12:23.87 -0.8 97.5
27
SPU
COLA ePc 01:12:24.65 -1.2
97.8 23 b:5.4+2 1.0 7.0 COLA
LR 01:22:26.70 S:5.1+3 20. 9.0
EADA P 01:12:24.76 5.5X
96.2 309
EADA
ELOJ P 01:12:26.46 7.9X
96.1 308 b:7.9+0 .56 5.4X
ELOJ
EARI P 01:12:26.95 9.5X
95.9 314
EARI
MTE ePc
01:12:27.47 -0.2 98.1 311 b:5.5+1 .95 6.1 MTE
BORG qP 01:12:27.93 0.0
98.3 337 b:4.8+2 1.0 6.9
BORG
EMIJ P 01:12:28.00 6.8X
96.6 307 b:1.3+4 5.9 7.6X
EMIJ
SLKM eP 01:12:28.17 -1.3
98.6 27 SLKM
VNA2 iPc 01:12:28.60 4.5X
97.5 199
VNA2
e
01:12:31.50 depth = 9.0X
e
01:12:32.70 depth = 12.8X
e 01:16:19.50 -1.7X
e
01:16:58.30 -0.4X
KDAK eP
01:12:28.69 -0.1 98.5
30 b:5.9+2 1.0 7.1
KDAK
LR
01:45:39.31
S:9.5+2 20. 8.3
SUMG eP 01:12:28.70 -2.6
99.0 347 b:5.8+2 1.2 7.0 SUMG
PMR eP
01:12:29.40 -0.3 98.7
26 b:1.2+2 1.4 6.2
PMR
LR 01:22:29.40 S:5.1+3 23. 9.0X
VNA1 iPc
01:12:29.40 3.9X 97.8 199 VNA1
e
01:12:32.30 depth = 9.0X
e
01:12:33.60 depth = 13.1X
e
01:16:20.60 -3.1X
e
01:16:58.50 -0.7X
FIB
eP 01:12:29.89 1.5
98.4 27 FIB
LR 01:45:36.16 S:2.4+3 22. 8.6
ECAL P 01:12:30.29 6.6X
97.2 313
ECAL
VNA3 iPc 01:12:30.50 3.5X
98.1 198
VNA3
e
01:12:33.30 depth = 8.7X
e
01:12:34.80 depth = 13.4X
e
01:16:21.40 -4.8X
e
01:17:01.10 1.3X
EBAD P
01:12:31.12 3.8X 98.0 310 EBAD
EPON P
01:12:31.74 8.0X 97.2 314 EPON
THY eP
01:12:32.50 -0.1 99.3
24
THY
ESPR P 01:12:33.50 8.7X
97.4 308
ESPR
ERUA P 01:12:33.88 9.3X
97.4 313 b:6.8+2 1.9 6.8
ERUA
EMIN P 01:12:35.02 8.1X
97.9 309
EMIN
EGRO P 01:12:35.91 6.0X
98.6 309
EGRO
DBIC eP 01:12:36.68 -1.4
100.3 277 b:4.0+2 1.2 6.8
DBIC
LR 01:46:24.64 S:2.1+3 20. 8.6
DIV ePdifc
01:12:37.07 -0.2 100.3
26 b:5.6+2 1.4 6.9
DIV
LR 01:46:31.80 S:1.4+4 21. 9.4
STS P
01:12:37.32 8.7X 98.3 314 b:2.3+2 1.5 6.5 STS
EZAM P 01:12:37.46 7.6X
98.6 313 b:1.4+3 3.6 6.9X EZAM
INK ePdif
01:12:37.49 -1.7 100.8
17 b:7.9+2 1.2 7.1
INK
EMAZ P 01:12:38.03 8.1X
98.6 314
EMAZ
ELOB P 01:12:38.65 10.5X
98.2 313
ELOB
EYAK ePdif 01:12:38.77
0.4 100.6 26 EYAK
DAWY eP 01:12:40.20
-1.8 101.4 22 DAWY
RES eP
01:12:43.46 -0.1 101.8
3 b:4.8+2 1.0 7.1
RES
DLBC ePdif 01:13:13.81
0.5 108.4 23 DLBC
YKW3 qPdif 01:13:22.36
0.8 110.3 15 YKW3
FCC qPdif
01:13:55.34 1.4 117.6
6
FCC
ePKPdf 01:17:35.66
-0.8X
EDM ePKPdf
01:17:37.75 -0.7 118.5
20
EDM
SDCO qPKPpre 01:17:43.23 -26.6X
134.6 24 SDCO
COR ePKPdf
01:17:43.26 0.2 120.8
32
COR
WALA qPKPdf 01:17:43.83
-1.1 121.8 23 WALA
SCHQ qPKPdf 01:17:43.89
2.0 120.3 349 SCHQ
NEW ePKPdf
01:17:45.46 1.9 121.1
25
NEW
HUMO ePKPdf 01:17:46.01
0.0 122.3 33 HUMO
LR 01:57:00.16 S:1.9+3 22. 8.7
KHMM ePKPdf 01:17:46.40
-1.3 123.0 35 KHMM
MOD ePKPdf
01:17:47.28 -2.7 124.3
32
MOD
LR 01:57:54.72 S:2.1+3 20. 8.8
MSO ePKPdf
01:17:47.78 -0.6 123.5
24
MSO
LR 01:57:33.35 S:2.5+3 22. 8.8
BMO ePKPdf
01:17:48.37 -0.2 123.6
28 BMO
YBH ePKPdf
01:17:48.46 0.9 123.1
34
YBH
WDC ePKPdf
01:17:49.33 0.2 123.9
35
WDC
LR 01:57:45.57 S:2.6+3 22. 8.9
HRY ePKPdf
01:17:50.15 -0.1 124.5
23
HRY
ULM ePKPdf
01:17:50.29 -1.9 125.7
9
ULM
LR 01:58:32.19 S:6.1+3 21. 9.2
HOPS ePKPdf 01:17:51.21
0.6 124.6 37 HOPS
LR 01:58:06.56 S:2.5+3 22. 8.8
OHCM ePKPdf 01:17:51.62
-0.3 125.4 35 OHCM
SAC ePKPdf
01:17:51.99 -1.1 125.9
38 SAC
DGMT qPKPdf 01:17:52.52
0.5 125.5 16 DGMT
LR 01:58:28.38 S:6.5+3 20. 9.3
NSHM ePKPdf 01:17:52.87
1.1 125.2 37 NSHM
BOZ ePKPdf
01:17:53.06 0.9 125.4
23
BOZ
LAO ePKPdf
01:17:53.46 -0.6 126.5
19
LAO
LR 01:58:56.81 S:4.9+3 22. 9.1
HLID ePKPdf 01:17:53.59
0.4 125.9 27
HLID
MCMT ePKPdf 01:17:53.68
1.1 125.6 25 MCMT
EFI qPKPdf
01:17:54.00 -0.9 127.1 200 EFI
LR 01:59:18.65 S:3.1+2 20. 8.0
YMR ePKPdf
01:17:54.23 -0.1 126.5
24
YMR
YNR ePKPdf
01:17:54.50 0.0 126.6
23
YNR
PFO ePKPpre 01:17:54.56 -10.8X 132.2 37 PFO
ePKPdf 01:18:04.17
-1.2X
GCMT ePKPdf 01:17:54.61
1.3 126.1 22 GCMT
YFT ePKPdf
01:17:54.62 -0.2 126.7
24
YFT
WCN ePKPdf
01:17:54.97 0.9 126.4
34 WCN
HVU ePKPdf
01:17:54.97 -2.3 128.1
27
HVU
PAHR ePKPdf 01:17:55.08
1.2 126.3 34 PAHR
QLMT ePKPdf 01:17:55.25
1.6 126.2 24 QLMT
SNOW ePKPdf 01:17:55.37
-1.1 127.6 24 SNOW
LKWY ePKPdf 01:17:55.92
1.0 126.8 23 LKWY
LR 01:59:06.71 S:5.6+3 20. 9.2
BMN qPKPdf
01:17:56.03 0.9 126.9
32
BMN
LR 01:59:10.92 S:1.7+3 21. 8.7
IMW qPKPdf
01:17:56.03 0.4 127.2
24
IMW
ELK ePKPdf
01:17:56.32 -0.4 127.7
30 ELK
LR 01:59:32.81 S:2.8+3 21. 8.9
CMB ePKPdf
01:17:56.34 1.4 126.9
36
CMB
LR 01:59:09.59 S:1.7+3 22. 8.7
WUWY ePKPdf 01:17:56.36
0.1 127.5 24 WUWY
LRV qPKPdf
01:17:56.40 0.1 127.6
38
LRV
LOHW ePKPdf 01:17:56.49
0.2 127.5 24 LOHW
TPAW ePKPdf 01:17:56.53
0.2 127.5 25 TPAW
TPH ePKPdf
01:17:56.75 -1.8 128.6
34
TPH
LR 01:59:59.70 S:2.0+3 22. 8.8
AHID ePKPdf 01:17:56.76
-0.5 128.0 25 AHID
LR 01:59:41.12 S:3.8+3 22. 9.0
BW06 ePKPdf 01:17:56.93
-1.6 128.7 24 BW06
LR 01:59:59.16 S:4.8+3 22. 9.1
MNV ePKPdf
01:17:57.16 0.2 127.9
34
MNV
LR 01:59:37.82 S:2.4+3 21. 8.9
EYMN ePKPdf 01:17:57.42
-0.4 128.5 6 EYMN
LR 01:59:53.19 S:3.6+3 22. 9.0
OMM ePKPdf
01:17:57.51 0.1 128.0
35
OMM
REDW ePKPdf 01:17:57.72
1.2 127.6 25 REDW
CTU ePKPdf
01:17:57.84 -2.1 129.4
27
CTU
NOQ ePKPdf
01:17:58.19 -1.4 129.3
28
NOQ
MTUM ePKPdf 01:17:58.34
0.3 128.4 35 MTUM
BGU ePKPdf
01:17:58.50 0.1 128.6
28
BGU
SPUT ePKPdf 01:17:58.81
0.5 128.6 27 SPUT
HWUT ePKPdf 01:17:58.87
0.2 128.8 26 HWUT
LR 02:00:02.35 S:6.9+3 22. 9.3
EMMW ePKPdf 01:17:59.30
-1.2 129.9 345 EMMW
RWWY ePKPdf 01:17:59.93
-2.1 130.5 23 RWWY
MPU ePKPdf
01:18:00.10 -1.0 130.0
28
MPU
NLU ePKPdf
01:18:00.44 -0.4 129.8
28 NLU
TRCR ePKPdf 01:18:00.74
0.9 129.3 32 TRCR
DAC ePKPdf
01:18:01.13 0.6 129.7
35
DAC
LR 02:00:30.14 S:1.7+3 22. 8.7
BLO qPKPpre 01:18:01.43 -13.8X 137.7 3 BLO
WVL ePKPdf
01:18:01.46 -0.3 130.6 346 WVL
LR 02:00:50.18 S:1.3+4 22. 9.6
USIN ePKPpre 01:18:01.80 -15.5X
138.8 4
USIN
TPNV ePKPdf 01:18:02.12
1.1 130.0 34 TPNV
DAU ePKPdf
01:18:02.13 1.2 129.9
27
DAU
FRNY ePKPdf 01:18:02.52
-0.3 131.2 350 FRNY
ARUT ePKPdf 01:18:02.57
-0.2 130.9 31 ARUT
TMUT ePKPdf 01:18:02.68 0.0
130.8 28 TMUT
MIV
ePKPdf 01:18:03.02 -1.2
131.9 350 MIV
MSNY ePKPdf
01:18:03.27 0.4 131.2 351 MSNY
MSU
ePKPdf 01:18:03.29 0.4
130.9 29 MSU
MVU ePKPdf 01:18:03.34
0.4 130.9 29 MVU
LR 02:01:04.39 S:2.8+3 21. 8.9
MDV ePKPdf
01:18:03.84 -0.4 131.9 349 MDV
PHWY ePKPdf 01:18:04.07
0.1 131.5 22 PHWY
SRU ePKPdf
01:18:04.08 0.6 131.2
27
SRU
PTN ePKPdf
01:18:04.08 0.3 131.7 351 PTN
FFD ePKPdf
01:18:04.61 0.0 132.1 348 FFD
NCB ePKPdf
01:18:05.01 0.3 132.1 350 NCB
LR 02:01:32.95 S:4.0+3 22. 9.1
RCBR ePKPdf 01:18:05.10
-0.1 132.0 265 RCBR
HNH ePKPdf
01:18:05.13 0.6 132.0 349 HNH
NEN ePKPdf
01:18:05.48 1.2 131.7
34
NEN
ACCN ePKPdf 01:18:05.77
0.2 132.6 350 ACCN
ISCO ePKPdf 01:18:06.21
-0.2 132.7 23 ISCO
LR 02:01:55.38 S:3.7+3 22. 9.1
WES ePKPdf
01:18:06.53 0.0 133.1 347 WES
LR 02:02:00.08 S:1.9+3 21. 8.8
JFWS ePKPdf 01:18:06.55
-1.1 133.7 6 JFWS
LR 02:02:18.78 S:5.6+3 22. 9.2
HRV ePKPdf
01:18:06.68 0.3 133.0 347 HRV
LR 02:01:58.29 S:2.2+3 19. 8.9
BINY ePKPdf 01:18:07.43
-1.1 134.1 352 BINY
LR 02:02:30.24 S:2.0+3 20. 8.8
FVM ePKPpre 01:18:07.48 -9.3X 138.5
8 FVM
GENY ePKPdf 01:18:08.65
0.8 133.8 354 GENY
TRQA ePKPpre 01:18:08.79 -10.7X
140.0 207
TRQA
LR 02:05:23.12 S:2.1+3 19. 8.9
PAL
ePKPdf 01:18:08.98 -1.1
134.9 349 PAL
ERPA ePKPdf
01:18:09.78 0.3 134.6 356 ERPA
LR
02:02:45.55
S:3.1+3 21. 9.0
AAM ePKPdf
01:18:10.27 0.9 134.6 360 AAM
LR 02:02:45.08 S:5.8+3 22. 9.3
WMOK ePKPpre 01:18:11.09 -8.0X 139.7
19
WMOK
SSPA ePKPdf 01:18:11.68
-0.2 135.9 353 SSPA
LR 02:03:21.40 S:7.3+2 22. 8.4
TUC ePKPdf
01:18:12.43 -0.8 136.4
34
TUC
LR 02:03:42.06 S:1.6+3 22. 8.7
WVT ePKPpre 01:18:13.11 -7.5X 140.6
5
WVT
ACSO ePKPdf 01:18:13.19
-0.1 136.7 359 ACSO
LR 02:03:43.61 S:4.6+3 22. 9.2
KSU1 ePKPdf 01:18:13.32
0.8 136.2 14 KSU1
ANMO ePKPdf 01:18:13.59
0.2 136.5 27 ANMO
LR 02:03:43.31 S:2.8+3 22. 8.9
SDMD ePKPdf 01:18:14.20
0.3 137.0 352 SDMD
MCWV ePKPdf 01:18:14.31
0.2 137.1 355 MCWV
LR 02:03:54.84 S:3.7+3 21. 9.1
HALT ePKPpre 01:18:14.87 -5.9X 140.7
7
HALT
SLM ePKPdf
01:18:15.15 -0.4 137.9
7 SLM
UALR ePKPpre 01:18:15.16 -6.8X 141.3
11
UALR
CCM ePKPdf
01:18:16.42 0.0 138.3
9
CCM
MIAR ePKPpre 01:18:16.45 -5.5X 141.3
13 MIAR
LR 02:05:57.62 S:3.7+2 21. 8.1
CBN ePKPdf
01:18:16.48 0.2 138.2 352 CBN
LR 02:04:27.68 S:4.1+3 21. 9.1
AMTX ePKPdf 01:18:17.73
-0.1 139.0 22 AMTX
LR 02:04:52.71 S:5.1+3 21. 9.2
SWET ePKPpre 01:18:17.94 -4.7X 141.6
2
SWET
FWV ePKPdf
01:18:18.25 0.1 139.2 356 FWV
ELN ePKPdf
01:18:18.29 -0.5 139.6 356 ELN
MNTX ePKPdf 01:18:18.45
-0.7 139.7 29 MNTX
LR 02:05:14.67 S:2.9+3 21. 9.0
GLAT ePKPdf 01:18:18.78
-1.3 140.3 7 GLAT
OXF ePKPpre 01:18:18.81 -4.5X 142.0
7
OXF
LR 02:06:18.23 S:3.7+3 20. 9.1
UTMT ePKPpre 01:18:18.98 -1.1
140.3 6 UTMT
BLA ePKPdf
01:18:19.16 0.4 139.5 356 BLA
LR 02:05:05.48 S:3.3+3 21. 9.1
PWV ePKPdf
01:18:19.55 0.9 139.5 356
PWV
PVMO qPKPdf 01:18:20.12
0.4 140.1 7 PVMO
LTX ePKPpre 01:18:20.32 -4.0X 142.5
29
LTX
LR 02:06:34.00 S:3.4+3 22. 9.1
BBSR qPKPdf 01:18:20.42
0.7 140.0 334 BBSR
LR 02:05:17.47 S:2.3+3 22. 8.9
HBAR ePKPdf 01:18:20.85
-0.2 140.8 9 HBAR
JCT ePKPpre 01:18:21.64 -3.9X 143.2
23
JCT
LR 02:06:53.05 S:1.9+2 22. 7.8
CPCT ePKPdf 01:18:21.97
-0.2 141.4 1 CPCT
NHSC ePKPpre 01:18:22.33 -3.7X 143.6 355 NHSC
LR 02:07:00.87 S:3.9+3 22. 9.1
MET qPKPdf
01:18:22.72 0.7 141.4
8
MET
NATX ePKPpre 01:18:22.90 -3.4X 143.7
15
NATX
LR 02:07:06.43 S:5.0+3 22. 9.2
LRAL ePKPpre 01:18:22.92 -3.4X 143.7
4
LRAL
LR 02:07:06.36 S:3.2+3 21. 9.1
RGRS ePKPpre 01:18:22.95 -3.4X 143.8 355 RGRS
GOGA ePKPpre 01:18:23.23 -2.6X 143.5 359 GOGA
LR 02:06:57.95 S:3.0+2 21. 8.0
JSC ePKPdf
01:18:23.75 -0.4 142.5 356 JSC
HBF ePKPdf
01:18:25.66 -0.7 143.8 355 HBF
COW ePKPdf
01:18:26.23 0.6 143.4 355 COW
HKT ePKPdf
01:18:27.23 -1.4 145.1
18
HKT
LR 02:07:45.74 S:1.1+3 22. 8.6
CCHI eP 01:18:27.99 0.1
145.1 197
CCHI
LMEL eP 01:18:28.30 -3.8X 147.0 201 LMEL
RPN ePKPdf
01:18:30.89 0.3 146.2 137
RPN
LR 02:08:27.60 S:1.5+2 19. 7.8
DWPF ePKPbc 01:18:37.36
-1.1 148.7 356 DWPF
LR 02:09:25.36 S:1.0+3 20. 8.6
PEL eP
01:18:38.13 4.8X 147.8 201 PEL
SJG ePKPdf
01:18:40.15 -0.7 152.4 321 SJG
ePKPbc 01:18:46.78
-0.9X
LR 02:11:07.57 S:1.5+3 20. 8.8
MDZ PKP
01:18:40.60 8.1X 147.3 204 MDZ
i 01:20:32.60
PP 01:24:39.40 160.X
PPP 01:29:37.00
SKKS 01:31:08.50
SKSP 01:35:20.60
PPS 01:38:47.40
TLL qP 01:18:41.06
3.1X 150.5 204 TLL
LVC ePKPdf
01:18:45.79 -0.1 155.8 216 LVC
LR 02:12:54.69 S:1.6+3 21. 8.8
TEIG ePKPdf 01:18:46.20
0.0 156.2 10 TEIG
LPAZ ePKPdf 01:18:50.54
-0.8 159.7 229 LPAZ
LR 02:14:43.19 S:2.5+3 21. 9.0
SDV ePKPdf
01:18:53.17 -0.1 162.0 312 SDV
LR 02:15:40.96 S:2.7+3 22. 8.9X
JTS ePKPdf
01:18:57.74 0.6 166.5
4
JTS
LR 02:17:53.84 S:5.9+2 20. 8.3X
NNA ePKPdf
01:18:58.66 -0.1 168.8 219 NNA
LR 02:19:03.79 S:2.8+2 21. 7.9X
PAYG ePKPdf 01:19:00.04
-1.0 173.2 67 PAYG
LR 02:21:16.33 S:1.6+3 22. 8.7X
OTAV ePKPdfc 01:19:00.35 -1.4
173.4 302 OTAV
ePKPab 01:20:32.94
2.8X
LR 02:21:06.81 S:2.3+3 21. 8.8X
WAKE LR 01:32:33.41 70.7
71 S:1.2+2 21. 7.1X
WAKE
TIXI LR 01:32:43.00 71.3
10 S:1.4+4 21. 9.2
TIXI
KONO LR 01:39:16.75 85.3 329 S:3.3+3 20. 8.7 KONO
RAO LR
01:40:56.22 88.2 119
S:1.6+3 21. 8.4 RAO
TRIS LR 01:49:26.69 106.5 232 S:1.3+3 19. 8.5 TRIS
SIT LR
01:49:43.36 107.1 26 S:5.2+3 21. 9.1 SIT
PMSA LR 01:54:30.98 117.0 189 S:1.3+3 22. 8.5 PMSA
OCWA LR 01:55:02.25 118.2
30 S:2.9+3 21. 8.9
OCWA
PQI LR
01:59:42.50 128.3 346
S:9.1+3 20. 9.5 PQI
Generated 2005 JAN 19 at 14:50
UTC
Record Section
Magnitude 9.1 OFF THE WEST COAST OF NORTHERN SUMATRA
Sunday, December 26, 2004 at 00:58:53 UTC
The record section below shows seismograms recorded on seismographic
stations spanning the contiguous United States. The seismograms are plotted as
a function of distance with stations close to the earthquake at the top and
more distant stations plotted at the bottom. Zero time corresponds to the
origin time of the earthquake. The station name is plotted to the right. For
large earthquakes, you can see several seismic arrivals that travel different
paths through the earth. Each trace is normalized to its maximum amplitude.
...
Theoretical P-Wave Travel Times
Magnitude 9.1 OFF THE WEST COAST OF NORTHERN SUMATRA
Sunday, December 26, 2004 at 00:58:53 UTC
...
This map shows the predicted
(theoretical) travel times, in minutes, of the compressional (P) wave from the
earthquake location to points around the globe. The travel times are computed
using the spherically-symmetric IASP91 reference earth velocity model. The
heavy black lines shown are the approximate distances to the P-wave shadow zone
(103 to 140 degrees).
Theoretical P-Wave Travel Times City Distance
(degrees) Travel Time
(min:secs) Arrival Time
UTC Phase
Kathmandu, Nepal 26.24 5:35.1 1:04:25.1 P
Beijing, China 40.97 7:42.8 1:06:32.8 P
Agana, Guam 49.40 8:49.7 1:07:39.7 P
Tokyo, Japan 51.81 9:07.9 1:07:57.9 P
Nairobi, Kenya 59.10 10:00.4 1:08:50.4 P
Brisbane, Australia 63.01 10:27.0 1:09:17.0 P
Moscow, Russia 69.78 11:10.4 1:10:00.4 P
Rome, Italy 82.80 12:24.4 1:11:14.4 P
Wellington, New Zealand 83.92 12:30.1 1:11:20.1 P
Bergen, Norway 87.38 12:47.3 1:11:37.3 P
London, England 91.15 13:05.0 1:11:55.0 P
Anchorage, Alaska 98.57 13:38.7 1:12:28.7 Pdiff
Honolulu, Hawaii 104.00 14:02.9 1:12:52.9 Pdiff
Palmer Station, Antarctica 114.17 14:48.0 1:13:38.0 Pdiff
Seattle, Washington 119.18 15:10.2 1:14:00.2 Pdiff
San Francisco, California 125.94 15:40.2 1:14:30.2 Pdiff
Duluth, Minnesota 129.68 15:56.8 1:14:46.8 Pdiff
Bangor, Maine 130.17 15:59.0 1:14:49.0 Pdiff
Ottawa, Canada 130.91 16:02.3 1:14:52.3 Pdiff
Los Angeles, California 130.93 16:02.4 1:14:52.4 Pdiff
Golden, Colorado 133.02 16:11.7 1:15:01.7 Pdiff
Boston, Massachusetts 133.05 16:11.8 1:15:01.8 Pdiff
New York, New York 135.22 16:21.4 1:15:11.4 Pdiff
Philadephia, Pennsylvania 136.17 16:25.6 1:15:15.6 Pdiff
Albuquerque, New Mexico 136.41 16:26.7 1:15:16.7 Pdiff
Wichita, Kansas 137.37 16:31.0 1:15:21.0 Pdiff
Washington, D.C. 137.50 16:31.5 1:15:21.5 Pdiff
St. Louis, Missouri 137.88 16:33.2 1:15:23.2 Pdiff
Knoxville, Tennessee 140.95 16:46.9 1:15:36.9 Pdiff
Brownsville, Texas 148.25 19:42.3 1:18:32.3 PKPdf
Miami, Florida 150.85 19:46.4 1:18:36.4 PKPdf
San Juan, Puerto Rico 151.97 19:48.1 1:18:38.1 PKPdf
Mexico City, Mexico 153.07 19:49.7 1:18:39.7 PKPdf
Lima, Peru 168.74 20:06.6 1:18:56.6 PKPdf
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shadow zone
The shadow zone is the area of the earth from angular distances of 104
to 140 degrees from a given earthquake that does not receive any direct P
waves. The shadow zone results from S waves being stopped entirely by the
liquid core and P waves being bent (refracted) by the liquid core.
Shadow Zone Flash Animation Shadow Zone Flash Animation
Did You Know???
Through measuring how P and S waves travel through the earth and out the
other side, a seismic wave shadow zone was discovered in about 1910. From the
lack of S waves and a great slowing of the P wave velocity (by about 40%) it
was deduced that the outer core is made of liquid. The shadow zone also defined
the diameter of the core.
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USGS Energy and Broadband Solution
OFF W COAST OF NORTHERN SUMATRA
04/12/26 00:58:50 UTC
Epicenter 3.30N 95.78E
BROADBAND SOURCE PARAMETERS
Energy Magnitude:
Me 8.5
Radiated Energy:
Es 1.1*10**17 Nm
No. of sta: 5
Focal mech. M
Explanation of Parameters
Latest USGS Energy Solutions
Source Parameter Search
For more information, contact George Choy, choy@usgs.gov
Comparable Rupture Area
Magnitude 9.0 OFF W COAST OF NORTHERN SUMATRA
Sunday, December 26, 2004 at 00:58:49 UTC
Download PDF of image.
Earthquakes rupture a patch along a fault's surface. Generally speaking, the larger the rupture patch, the
larger the magnitude of the earthquake. Initial estimates based on
the aftershock distribution show the magnitude 9.0 Sumatra-Andaman Islands
Earthquake ruptured a patch of fault roughly the size of California, and
modeling of the seismic waves show that most of
the slip occurred in the southern 400 kilometers of the patch. For
comparison, a magnitude 5 earthquake would rupture a patch roughly the size of
New York City's Central Park.
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