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 mar ipd 09 25 37.4 0.9 s 40nm
16 mar ep 21 23 30
16 mar ep 21 23 59 is 27 15
17 mar ipc 07 22 10.1 0.9 s 104nm
17 mar ep 18 25 17.0
18 mar ep 08 56 40
18 mar ep 09 21 00
18 mar ep 09 24 34
18 mar ep 09 26 00
19 mar ep 00 10 30 is 14 10
19 mar ipc 21 46 35.9 0.8 s 155nm is 50 35
20 mar ipd 14 04 33.4 0.6 s 45nm
20 mar ep 14 05 46 isp 16 17 lz 21s 51um
20 mar ep 14 05 46.0 i 16 17.0 lz 21s 5100nm
21 mar ipc 08 03 48.4 0.9 s 100nm 04 09
21 mar ep 08 20 04 iss 25 55
23 mar ep 06 30 02.0 is 40 00.0 lz 20s 7500nm
23 mar ipd 12 19 20.9 0.7 s 96nm
23 mar ep 19 08 06 is 11 35
23 mar ipd 23 55 19.0 0.9 s 303nm
23 mar ep 23 55 35 i 56 58 is 58 50
dag
16 mar ipc 00 00 52.3 0.4 s 1700pm
16 mar ipc 04 37 55.2 1.6 s 33nm
16 mar ipd 09 26 16.8 1.1 s 7600pm
16 mar ipc 21 27 27.7 0.5 s 4200pm
17 mar ipd 00 38 56.3 1.0 s 10nm
17 mar ipd 03 06 06.1 0.8 s 30nm isks 16 32
17 mar ipc 07 20 30.2 1.4 s 30nm
17 mar ipc 18 23 45.2 1.0 s 12nm
17 mar ipc 20 09 27.5 0.7 s 26nm iap 09 59
18 mar ipd 00 28 31.7 1.0 s 14nm
18 mar ep 08 55 57
18 mar ipd 09 20 02.0 1.2 s 62nm iap 20 28
18 mar ep 09 24 35
18 mar ep 09 26 46 isks 30 33
19 mar ipd 00 08 08.0 0.6 s 19nm
19 mar ipc 11 55 28.2 0.8 s 13nm
19 mar ipc 12 42 36.5 0.8 s 6000pm is 43 45
19 mar ipc 21 50 01.5 0.6 s 35nm
20 mar ipd 02 09 50.8 1.0 s 18nm
20 mar ipc 11 38 21.9 0.6 s 6000pm
20 mar ipd 14 00 00.5
20 mar ep 14 13 55 i 14 12
20 mar ep 14 15 09
20 mar ip 16 41 56.0
20 mar ipc 18 01 48.4
21 mar ipc 08 03 06.3 0.6 s 33nm
21 mar ep 08 16 15 iss 21 30
21 mar ipc 08 12 57.4 1.0 s 10nm
21 mar ipc 19 30 28.1 1.0 s 6000pm
22 mar ep 19 25 48.0 i 26 49.0
22 mar ipd 20 26 03.8 0.7 s 4800pm
22 mar ipc 22 57 44.8
23 mar ipd 12 20 38.3 0.7 s 21nm
23 mar ep 23 59 05 is 05 22
sco
16 mar ip 13 21 31.5 is 21 34.0
16 mar ip 21 27 04.3 0.7 s 11nm
17 mar ip 03 06 35.8 0.8 s 2500pm
17 mar ip 07 21 18.4 1.0 s 46nm
17 mar ep 18 24 08 1.5 s 25nm
17 mar ip 20 10 09.9 1.0 s 10nm
18 mar ep 09 20 32 1.0 s 13nm
18 mar ip 09 24 23.8
18 mar ep 09 34 53 i 35 31
19 mar ip 00 06 43.9 is 07 10
19 mar ip 00 25 52.3
19 mar ip 00 38 58.0
19 mar ip 01 05 54.9
19 mar ip 01 24 53.0
19 mar ep 11 55 16
19 mar ip 16 04 35.0
19 mar ip 21 49 42.0 0.9 s 180nm
21 mar ipc 08 03 16.2 1.4 s 110nm
23 mar ip 04 54 38.3 is 54 48.0 i 55 02.0
23 mar ep 12 20 57
23 mar ip 19 11 25.8 0.8 s 7400pm
23 mar ip 23 58 34.8 1.2 s 230nm
mud
16 mar ipd 09 25 46.8 0.8 s 26nm
16 mar ep 21 24 05 0.8 s 7100pm
17 mar ipd 07 22 12.6 1.0 s 66nm
17 mar ep 20 09 48 i 10 21.5
17 mar ipd 23 06 17.0 1.1 s 31nm i 06 28.3
18 mar ipc 08 55 39.8 1.2 s 123nm
18 mar ep 09 23 36 1.3 s 141nm i 24 03
18 mar ep 09 33 30.0 i 34 09.0
18 mar ipd 09 36 25.3
18 mar ipd 09 36 25.3 1.0 s 66nm
19 mar ip 00 09 08.5 1.3 s 30nm i 09 38
19 mar ipc 08 56 32.0
19 mar ipc 08 56 32.0 0.6 s 11nm
21 mar ipd 16 08 22.4 0.7 s 44nm
23 mar ep 19 08 27 1.5 s 54nm
23 mar ipc 23 55 36.5
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