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 2014 11 26
cop
9mar epu 08 05 50 i 15 46 lz 18s 1900nm
9mar ip 09 09 25.0 0.6 s 53nm
9mar ip 11 24 56.5 0.6 s 53nm
10mar ep 13 00 03 i 03 37 lz 18s 10um
12mar epu 14 21 03 i 23 48 lz 22s 5900nm
13mar ipd 06 47 10.3 0.9 s 24nm
13mar ipc 17 20 12.2 1.6 s 280nm e 26 16 i 26 34
15mar ipc 03 46 35.6 0.8 s 30nm
15mar ep 16 23 43 e 26 56 i 34 00
dag
9mar ip 08 05 01.0 0.9 s 25nm
9mar ip 08 29 38.0 0.9 s 13nm
9mar ip 15 48 24.0 0.7 s 6800pm
10mar ip 12 38 41.0 0.9 s 16nm
10mar ipd 13 46 27.5 0.7 s 32nm lz 18s 8800nm
10mar ipc 22 05 44.0 0.9 s 15nm iap 06 44.9
11mar ipc 04 30 42.1 0.7 s 6800pm
11mar ipd 12 59 53.8 1.1 s 56nm
11mar ip 16 37 26.0 0.9 s 20nm
11mar ipd 23 11 24.5 0.4 s 31nm
12mar ip 01 19 54.8
13mar ipc 09 30 05.1 0.7 s 25nm
13mar ip 12 35 35.4 0.3 s 22nm
13mar ip 17 22 58.8 1.0 s 30nm
14mar ip 12 00 45.0 1.0 s 4000pm
14mar ip 12 41 14.0 0.8 s 28nm
14mar ip 13 54 48.5 0.4 s 6800pm
14mar ip 15 14 38.0 1.2 s 48nm
14mar ip 16 52 24.0
14mar ip 21 09 15.0 0.5 s 2100pm
14mar ip 23 26 33.8 0.2 s 11nm
15mar ip 03 32 40.5 0.5 s 8500pm
15mar ip 03 45 11.5 0.8 s 12nm
15mar ip 07 29 48.2 1.0 s 15nm
15mar ip 08 14 34.0 0.4 s 8500pm
15mar ip 08 43 45.0 0.2 s 28nm
15mar ip 12 33 45.0 0.4 s 1700pm
15mar ip 13 30 49.8 0.9 s 38nm
15mar ip 14 52 39.0 0.8 s 33nm
15mar ip 16 38 36.2 1.0 s 22nm
15mar ip 19 56 43.8
15mar ip 22 24 34.8 0.8 s 9000pm
gdh
9mar ep 01 50 07 e 00 45 e 04 25
9mar ep 04 25 10 e 25 29
9mar ep 07 13 12 e 13 44
9mar ep 08 04 44 i 04 54 e 07 05
9mar ipc 08 29 27.9 1.2 s 62nm i 32 50
9mar ipd 22 59 48.3 0.9 s 30nm
10mar epc 12 58 28 e 00 55 i 18 21
10mar ipd 22 06 27.0 1.2 s 103nm i 06 40
11mar ep 05 55 45 e 56 54
11mar ep 16 03 38 e 03 59
11mar ep 22 43 12 e 59 20
11mar ipc 23 09 20.0 0.3 s 156nm i 09 26 i 10 06
11mar ipd 23 45 50.1 e 47 28
12mar ep 11 39 40
12mar ep 14 21 05 e 30 55 i 37 36
12mar ep 22 34 48
13mar ep 00 36 50 e 57 25
13mar ep 00 48 58 i 49 21
13mar ep 09 28 06 i 28 12 i 28 56
13mar epd 17 23 54 1.0 s 60nm
13mar epc 19 20 15 e 21 22
14mar ep 06 05 07 e 05 38
14mar ipd 21 40 47.0 1.0 s 20nm
15mar ipd 03 46 00.9 1.0 s 36nm
15mar epc 16 22 26 1.7 s 154nm i 33 02 i 40 16
mud
9mar ip 01 49 40.8 1.1 s 17nm
10mar ipc 22 07 33.7 1.3 s 44nm
11mar ipc 08 27 45.9 1.1 s 26nm
12mar ip 04 32 20.8 1.2 s 33nm
13mar ipd 17 20 26.2 1.4 s 218nm
15mar ip 16 27 43.5 1.2 s 24nm
bsd
9mar ip 09 08 52.7 is 09 08
9mar ip 11 24 25.7 is 24 41.3
10mar ipc 22 07 31.0 0.6 s 21nm
12mar ipc 15 00 20.5 1.0 s 44nm
13mar ipd 06 47 09.6 0.9 s 34nm
13mar ip 09 29 11.8 0.8 s 5000pm
13mar ip 09 34 02.0 0.7 s 10nm
13mar ipd 17 20 01.8 1.5 s 177nm
15mar ipd 00 54 09.8 1.0 s 24nm
15mar ip 03 46 33.5 0.7 s 14nm e 46 49
15mar ip 16 38 35.5 i 38 50
sco
9mar ip 08 04 54.5
10mar ipd 10 18 13.8 0.5 s 4000pm
10mar ipd 12 58 34.0 1.2 s 6000pm
13mar ip 00 54 40.3
13mar ip 09 30 27.0
++