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
sco Scoresbysund (DK) 70.48 N 21.95 W 69 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.
Data from monthly bulletin Processed 2015 07 21
cop
16 sep ep 22 46 27
17 sep ep 06 54 30 is 05 00 i 10 39
17 sep ep 09 28 46 lz 19s 8000nm
18 sep ep 13 31 26 0.9 s 134nm i 32 15 is 35 50
18 sep ipd 17 14 53.0 1.0 s 112nm i 18 22 i 30 05
19 sep ip 01 33 06.1 1.1 s 76nm is 43 10 lz 18s 4500nm
20 sep ipc 17 08 37.4 0.7 s 68nm i 09 12 lz 18s 6500nm
20 sep ipc 22 06 06.8 0.6 s 85nm is 16 12
21 sep ipd 09 42 05.7 0.8 s 113nm is 52 08
21 sep ep 21 31 28.0 is 41 52.0
21 sep ep 22 04 03.0
22 sep ep 05 51 57
22 sep ep 12 03 32 1.0 s 92nm
22 sep ep 18 24 10 i 28 20 i 35 15
22 sep ep 21 31 28 is 41 52
22 sep ep 22 04 03
23 sep ipd 17 17 52.7 1.0 s 216nm is 27 08
dag
16 sep ipc 00 38 56.3 0.9 s 46nm
17 sep ip 09 28 03.0 i 30 35.0 i 31 44.0
18 sep ipd 17 13 44.0 1.5 s 750nm
19 sep ipd 01 31 56.0 1.3 s 44nm
19 sep ipd 22 01 15.0 1.0 s 17nm i 02 14.0
19 sep ipd 22 11 07.0 0.7 s 21nm i 12 08.0
20 sep ipc 04 24 52.3 1.0 s 80nm
20 sep ipc 04 35 31.5 0.7 s 25nm
20 sep ip 17 07 27.0
20 sep ipd 19 32 00.7 0.8 s 72nm
20 sep ipc 22 04 57.0 0.6 s 25nm
20 sep ipc 23 25 36.2 1.0 s 24nm
21 sep ipd 09 40 53.7 0.8 s 63nm
22 sep ipc 03 28 26.0 0.5 s 50nm i 29 36.0
22 sep ip 09 21 34.0
22 sep ip 10 34 24.0
22 sep ip 12 02 29.0
22 sep ip 16 03 50.7
22 sep ep 16 05 51.0
22 sep ipc 18 23 18.5 0.7 s 37nm i 26 43.0
22 sep ipd 19 34 36.0 0.9 s 13nm
22 sep ipc 21 31 13.0 0.7 s 79nm
22 sep ip 22 03 29.0
23 sep ipd 07 35 29.7 0.3 s 13nm
23 sep ipd 15 45 14.4 0.7 s 16nm
23 sep ipc 17 15 13.9 0.6 s 260nm
23 sep ep 22 17 17.0
23 sep ipc 23 19 26.0 0.9 s 10nm
gdh
16 sep ipd 20 05 35.7 0.7 s 34nm i 06 16.0
16 sep ipd 20 05 35.7 0.7 s 34nm i 06 16.0
17 sep ep 07 09 35.0 e 17 30.0
17 sep ip 09 09 35.0 i 17 30.0
17 sep ep 09 30 28.0 lz 18s 16um
18 sep ep 17 14 30 1.4 s 502nm
18 sep ipd 17 14 30.2 1.2 s 753nm i 24 15
19 sep ep 01 42 28.0 lz 22s 4400nm
20 sep ipc 04 24 31.5 1.0 s 40nm
20 sep ep 17 07 53 i 18 02 lz 18s 8200nm
20 sep ipd 17 28 21.4 0.5 s 31nm i 28 45.0 i 29 20.0
20 sep ep 22 05 42 0.8 s 15nm i 15 33
22 sep ip 22 06 23.0 i 23 25.0 lz 19s 8800nm
23 sep ipd 17 15 12.5 0.8 s 45nm i 22 06 lz 20s 5000nm
23 sep ep 22 23 43.0 0.3 s 13nm i 24 04.0
sco
18 sep ip 17 14 23.0 1.5 s 150nm i 14 48 lz 18s 112um
22 sep ip 17 43 58.0
23 sep ip 17 15 54.3 0.6 s 41nm
23 sep ip 22 46 57.8 0.7 s 14nm
mud
16 sep ep 22 46 23 1.1 s 52nm
17 sep ep 06 54 37 1.3 s 86nm
17 sep ep 09 28 54 i 29 07
18 sep ipc 13 31 44.1 1.1 s 50nm
18 sep ipc 17 14 56.4 1.0 s 480nm
19 sep ep 01 33 09 1.2 s 54nm
20 sep ep 17 08 48 1.0 s 33nm
20 sep ipc 22 06 09.9 0.8 s 14nm
21 sep ipd 09 42 08.2 1.0 s 66nm
22 sep ep 05 51 53 1.1 s 47nm
22 sep ipc 18 28 25.2 1.0 s 54nm
22 sep ipc 18 28 25.2 1.6 s 154nm
22 sep ipd 21 31 35.9 0.9 s 58nm i 31 54
22 sep ep 22 04 30 1.3 s 30nm
23 sep ipc 17 17 48.1 0.7 s 80nm
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