bul94041
PRELIMINARY SEISMOGRAM READINGS
from Danish network:
cop Copenhagen (DK) 55.68 N 12.43 E 13 m
dag Danmarkshavn (DK) 76.77 N 18.65 W 30 m
mud Moensted Underground (DK) 56.46 N 9.17 E 12 m
bsd Bornholm (DK) 55.11 N 14.91 E 88 m
lld Lille Linde, Stevns (DK) 55.33 N 12.22 E 8 m
gdh Godhavn (DK) 69.25 N 53.33 W 23 m
Amplitudes are 0.5*double trace amplitude (p-p) / steady state
magnification at period given. Units are:
pm pico meter i.e. 10**-12 m
nm nano -9 m
um micro -6 m
etc.
p means any first arrival P, PKP or PKIKP etc.
ap is pP and xp sP as used in mono case letter formats.
Processed 1994 10 12
cop
5 oct ipdu 07 27 41.8 0.8 s 180nm es 37 16
5 oct ipd 12 23 32.9 0.8 s 87nm
5 oct ipc 12 51 03.5 0.8 s 27nm
5 oct ipc 20 49 06.5 0.9 s 140nm
5 oct ipd 20 51 06.5 0.8 s 160nm i 51 42 es 58 35
6 oct ipc 07 50 30.0 0.9 s 57nm
7 oct ipc 02 47 40.3 0.8 s 450nm
7 oct ipd 03 34 54.7 0.7 s 140nm
7 oct ipc 07 12 24.4 0.6 s 72nm
7 oct ipc 15 35 40.0 0.8 s 240nm
7 oct ep 17 20 48 0.6 s 61nm
8 oct ipc 05 40 01.7 0.8 s 81nm
8 oct ipc 10 06 10.7 0.8 s 150nm
8 oct ipu 23 02 48 i 09 14 lz 20s 28um
9 oct ipc 08 07 11.9 0.6 s 1100nm is 16 34 ((lp amplitude
out of range))
9 oct ipc 08 18 46.0 0.8 s 660nm i 18 51.9
9 oct ip 09 00 28.0 0.9 s 410nm
9 oct ipc 11 19 18.0 0.8 s 57nm e 19 30 i 20 32.9
9 oct ipc 12 35 53.5 0.8 s 130nm
9 oct ipd 20 36 42.0 0.8 s 78nm
10 oct ip 12 58 05 i 58 33.5
10 oct ipc 21 18 21.6 0.5 s 42nm
dag
4 oct ep 10 33 19 0.9 s 5000pm
4 oct ep 11 08 35 0.4 s 5100pm
4 oct ipu 13 32 56.5 ((sp and lp amplitudes out of range))
4 oct ipd 14 48 25.0 0.8 s 13nm iap 48 50.2
4 oct ipd 14 57 50.1 1.0 s 44nm
4 oct ipd 15 14 37.3 1.0 s 31nm
4 oct ipd 15 34 17.4
4 oct ipc 15 44 50.7 1.0 s 29nm
4 oct ipc 16 11 03.5 1.1 s 190nm
4 oct ip 16 36 39.8 1.0 s 39nm
4 oct ipd 16 42 44.0 1.0 s 42nm
4 oct ep 17 02 43.2 1.0 s 18nm
4 oct ipd 17 08 34.8 1.1 s 22nm
4 oct ipc 17 09 34.7 0.9 s 10nm
4 oct ipc 17 11 24.0 0.5 s 8500pm
4 oct ipc 17 17 08.4 0.7 s 8200pm
4 oct ipd 17 22 08.3 0.9 s 8400pm
4 oct ipd 17 41 52.7 1.2 s 28nm
4 oct ep 17 58 12 1.0 s 18nm
4 oct ipc 18 00 28.6 1.2 s 61nm ixp 01 52.1
4 oct ipc 18 12 43.1 0.4 s 6800pm
4 oct ipc 18 19 37.9 1.0 s 17nm iap 20 20.7
4 oct ipd 18 31 33.7 0.7 s 7500pm
4 oct ep 19 20 00 0.8 s 12nm
4 oct ipd 19 26 26.1 0.9 s 44nm
4 oct ipd 20 11 02.7 1.0 s 28nm
4 oct ipd 20 16 32.3 1.0 s 29nm
4 oct ipc 20 26 53.2 1.1 s 35nm
4 oct ip 20 39 02.8 0.3 s 10nm
4 oct ep 21 39 56 1.1 s 11nm
4 oct ep 21 49 25 0.7 s 7500pm
4 oct ep 22 42 06.1 1.5 s 47nm
4 oct ip 23 06 26.8 1.0 s 33nm
4 oct ep 23 29 16.3 0.5 s 5600pm iap 30 12.7 ixp 33 01.4
4 oct ipc 23 56 42.0 0.9 s 24nm
5 oct epc 00 12 43.0 1.3 s 25nm
5 oct ipc 00 18 24.6 0.9 s 13nm
5 oct ep 00 32 35.2 0.7 s 17nm
5 oct ep 00 37 39.3 1.3 s 52nm
5 oct ip 00 44 56.8 1.0 s 21nm
5 oct ipd 01 03 46.7 0.8 s 9000pm
5 oct ipd 01 19 38.3 1.2 s 31nm
5 oct ipc 01 25 15.0 1.2 s 30nm ixp 28 20.7
5 oct ep 01 36 41 1.0 s 10nm
5 oct ipd 01 52 03.5 1.0 s 20nm
5 oct ip 02 06 52.4 1.0 s 10nm exp 08 49.5 lz 18s 1800nm
5 oct ipc 02 24 08.6 1.0 s 12nm
5 oct ipd 03 26 46.0 1.2 s 39nm
5 oct ipd 03 33 49.4 1.0 s 44nm
5 oct ep 03 53 22
5 oct ipc 04 10 48.0 1.2 s 180nm ixp 14 30.0 i 18 22.7
lz 16s 0pm ln 17s 2700nm le 16s 0pm
5 oct ep 04 54 40 1.2 s 16nm
5 oct ip 05 05 17.8 1.0 s 19nm
5 oct ep 05 10 59 0.8 s 6700pm
5 oct ep 05 47 16.4 1.0 s 12nm
5 oct ep 07 02 30 0.8 s 9000pm
5 oct ipd 07 17 26.0 0.6 s 8700pm ixp 20 54.7
5 oct ep 07 26 06 1.0 s 91nm lz 16s 0pm ln 16s 0pm
le 16s 0pm
5 oct ep 09 20 06 1.7 s 62nm
5 oct ep 10 01 50 0.9 s 8400pm
5 oct ipd 12 09 38.1 1.0 s 20nm
5 oct ipc 12 15 06.1 1.0 s 110nm
5 oct ep 12 21 58 0.9 s 5900pm
5 oct ipd 12 44 43.8 0.9 s 52nm
5 oct ipd 12 49 28.3 0.7 s 35nm
5 oct ep 14 24 28.4 0.8 s 6700pm
5 oct ipd 14 46 01.6 1.1 s 13nm
5 oct ipd 15 37 29.3 1.0 s 7000pm
5 oct ep 17 16 08.5 0.9 s 6700pm
5 oct ip 17 25 30.0 0.7 s 6800pm
5 oct ip 20 47 32.0 0.9 s 56nm lz 19s 7600nm ln 18s 3800nm
le 20s 3800nm
5 oct ip 21 19 02.0 1.1 s 33nm
5 oct ip 22 41 19.8 0.7 s 8200pm
6 oct ep 03 25 13.2 0.8 s 4500pm
6 oct ep 05 26 22.5 0.5 s 7700pm
6 oct ipd 07 48 51.8 0.9 s 24nm
6 oct ipd 07 56 48.0 1.0 s 45nm
6 oct ip 09 12 15.0 0.7 s 5500pm
6 oct ep 10 45 45.5 0.3 s 5200pm exp 47 52 ixp 48 36.8
6 oct ipc 12 05 40.7 0.7 s 13nm
6 oct ep 12 56 06.0 0.9 s 7600pm
6 oct ipd 12 49 46.3 0.9 s 17nm
6 oct ipd 18 53 15.2 1.0 s 36nm
6 oct ep 20 57 24 iap 58 18.0
6 oct ip 21 17 21.9 0.9 s 12nm
6 oct ipd 23 30 12.9 0.8 s 36nm
7 oct ep 01 27 57 0.8 s 7500pm
7 oct ipd 02 46 05.9 0.8 s 210nm
7 oct ipd 03 35 22.9 0.7 s 160nm
7 oct ep 07 10 53 0.7 s 95nm
7 oct ep 07 58 58.5 0.8 s 6000pm
7 oct ip 09 53 06.2 0.9 s 13nm
7 oct ep 10 24 56 0.7 s 4100pm
7 oct ep 11 33 54 0.8 s 6000pm
7 oct ipc 13 58 15.4 0.6 s 12nm
7 oct ep 15 10 15 1.0 s 56nm ((amplitude uncertain))
7 oct ipc 15 33 08.2 1.0 s 96nm
7 oct ep 21 14 38.2 1.0 s 10nm
8 oct ep 00 43 22.3 0.6 s 5300pm
8 oct ep 01 51 34.5 1.0 s 8000pm ixp 52 52.1
8 oct ipd 05 38 28.1 1.1 s 81nm
8 oct ep 08 17 58.3 0.6 s 4700pm
8 oct ip 08 38 14.0 0.7 s 6200pm
8 oct ipd 10 04 34.7 0.9 s 23nm iap 05 24.8
8 oct ipd 10 33 36.4 0.6 s 4700pm
8 oct ipd 10 38 43.2 1.2 s 53nm
8 oct ipd 12 23 49.4 1.1 s 120nm
8 oct ipc 13 17 50.0 0.4 s 4200pm iap 18 49.9
8 oct ep 21 46 51 iap 47 07.2
8 oct ip 21 51 43.2 0.7 s 5500pm
8 oct ipd 21 58 03.4 1.0 s 26nm
8 oct ipc 22 14 09.4 1.1 s 14nm
8 oct ep 22 22 01 0.8 s 6000pm lz 19s 26um ln 20s 18um
le 20s 13um
8 oct ip 23 06 53.7 0.3 s 42nm
9 oct ipc 00 36 52.3 0.8 s 14nm
9 oct ep 02 55 56 0.9 s 5900pm
9 oct ep 05 59 51 0.8 s 6700pm
9 oct ipdu 08 05 36.0 0.8 s 180nm
9 oct ipd 08 17 02.2 0.9 s 59nm lz 20s 110um ln 21s 86um
le 18s 65um
9 oct ipd 08 58 51.0 0.9 s 23nm
9 oct ep 10 17 24 0.6 s 5300pm
9 oct ep 11 30 32.5 0.9 s 8400pm
9 oct ipc 11 17 43.2 1.1 s 71nm
9 oct ipd 12 34 17.9 0.9 s 33nm iap 35 07.3
9 oct ep 14 07 16.4 0.7 s 4100pm
9 oct ipc 15 47 18.7 1.2 s 14nm
9 oct ep 16 56 46 0.8 s 6000pm
9 oct ep 18 24 36 0.7 s 5500pm
9 oct ipd 19 17 56.2 0.9 s 35nm
9 oct ipc 20 35 05.8 1.0 s 8000pm
9 oct ipd 21 04 21.0 1.4 s 33nm
9 oct ipd 22 33 53.5 1.3 s 31nm
10 oct ep 02 08 09.5
10 oct ep 06 03 30 0.5 s 6300pm
10 oct ep 08 13 05 0.8 s 5200pm
gdh
4 oct ipc 13 33 43.3 2.0 s 4200nm
5 oct ep 04 20 28 i 33 10
8 oct ep 21 59 29 i 04 12 i 11 08
8 oct ipu 08 06 22 i 15 07
bsd
4 oct ipc 13 34 23.2 ((sp amplitude out of range))
4 oct ipd 14 55 22.0 0.5 s 48nm
4 oct ipc 15 33 50.2 0.7 s 360nm
4 oct ip 16 12 37.0 0.8 s 350nm
4 oct ip 16 17 57.0 0.7 s 110nm
4 oct ipd 18 21 10.0 0.9 s 100nm
4 oct ipc 19 27 58.3 1.0 s 440nm
4 oct ipc 20 12 35.1 0.6 s 90nm
4 oct ip 23 07 08.0 0.8 s 100nm
5 oct ipc 04 12 20.0 0.8 s 70nm
5 oct ipd 07 27 39.5 0.9 s 130nm
5 oct ipc 12 46 13.8 0.6 s 41nm
5 oct ipd 12 51 01.0 0.9 s 250nm
5 oct ipc 20 49 03.7 1.0 s 160nm
5 oct ipd 20 51 26.4 0.9 s 150nm
6 oct ep 08 50 25 0.8 s 18nm
6 oct ep 08 58 10
6 oct ipc 09 13 44.7 0.7 s 11nm
6 oct ipd 12 07 13.6 0.6 s 40nm
6 oct ip 23 41 44.0 0.6 s 33nm
7 oct ipc 02 47 38.0 1.0 s 530nm
7 oct ipc 03 34 44.0 0.6 s 80nm i 36 10
7 oct ep 14 17 02.8 0.3 s 41nm
7 oct ipd 15 35 37.3 1.0 s 250nm
8 oct ipc 05 39 58.5
8 oct ipc 10 06 08.3 0.6 s 62nm
8 oct ep 12 25 19.3 0.7 s 14nm
9 oct ipc 08 07 09.2 ((sp amplitude out of range))
9 oct ipc 08 18 36.2 0.7 s 290nm
9 oct ep 09 00 25 0.8 s 150nm
9 oct ep 11 18 58.7 0.4 s 28nm i 19 16
9 oct ipc 11 20 28.8 0.7 s 36nm
9 oct ipc 12 35 50.5 0.8 s 88nm
++