bul85033
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
7 sep epc 10 25 15 1.0 s 228nm is 28 50
dag
1 sep ipc 01 11 25.8 0.7 s 17nm
2 sep ipd 01 45 14.5 0.6 s 16nm
3 sep ipd 23 46 18.2 0.5 s 21nm i 46 47.5
4 sep ep 00 47 21.0 i 48 20.0
4 sep ipd 08 42 51.8 0.5 s 23nm i 43 15.6
4 sep ep 18 49 43.0 i 50 00.0 i 52 42.0
5 sep ep 08 30 38.0 i 31 12.0
6 sep ipc 15 48 26.3 0.4 s 8500pm i 49 36.0
6 sep ep 20 47 50.0
7 sep ipd 05 20 04.0 0.5 s 14nm
7 sep ipc 10 28 49.8 0.4 s 22nm
7 sep ep 10 54 46.0
7 sep ip 10 56 45.8
7 sep ipd 15 30 50.1 0.4 s 13nm i 31 18.0
7 sep ipc 15 30 50.1 0.4 s 13nm i 31 18.0
8 sep ip 04 34 53.7 i 35 17.0
8 sep ep 04 34 54.0 i 35 17.0
8 sep ep 04 51 54.0
8 sep ipc 13 56 08.8 0.5 s 12nm
8 sep ipc 14 23 58.1 1.0 s 15nm
8 sep ipc 16 05 30.0 0.5 s 11nm
8 sep ipc 23 03 50.7 0.4 s 19nm
gdh
1 sep ipd 00 15 43.2 0.5 s 45nm e 18 34.0
1 sep ipd 00 15 43.2 0.5 s 45nm i 18 34.0
1 sep ep 01 01 30.0
1 sep ipd 01 10 01.0 1.0 s 24nm
1 sep ep 05 35 24.0
1 sep ipc 08 09 41.9 0.6 s 16nm e 13 16.0
2 sep ipd 06 55 03.8 1.2 s 153nm
2 sep epd 19 47 50.0 0.7 s 29nm i 48 22.0
2 sep ipd 19 47 50.0 0.7 s 29nm i 48 22.0
3 sep ipd 01 48 38.0 1.0 s 60nm
3 sep ep 02 00 32.0
3 sep ep 20 12 43.0
3 sep ipd 20 15 36.5 0.4 s 34nm i 16 04.0
3 sep ipd 20 15 36.5 0.4 s 34nm i 16 04.0
4 sep ipd 00 47 54.2 0.6 s 67nm i 49 52.0 i 50 42.0
4 sep ipd 00 47 54.2 0.6 s 67nm i 49 52.0 i 50 42.0
4 sep epc 08 38 38.0 1.0 s 40nm i 38 58.0
4 sep ipc 10 21 22.1 1.0 s 40nm i 22 39.0
4 sep ipc 10 21 22.3 1.0 s 40nm i 22 39.0
4 sep ipc 14 29 11.3 0.9 s 20nm i 29 29.0 i 29 48.0
4 sep ipc 14 29 11.3 0.9 s 20nm i 29 29.0 i 30 23.0
4 sep ip 14 29 11.7 0.9 s 20nm i 29 29.0
4 sep ipd 16 26 04.0 1.0 s 50nm
4 sep epc 20 40 13.0 0.8 s 30nm
4 sep ipc 20 40 13.0 0.8 s 30nm i 40 19.0
4 sep epc 23 27 48.0 0.7 s 14nm
4 sep ipc 23 27 48.0 0.7 s 14nm i 27 50.0
5 sep ep 03 25 18.0 i 25 26.0
5 sep epc 03 50 09.0 0.8 s 30nm i 52 48.0
5 sep ipc 03 50 09.0 0.8 s 30nm i 50 38.0 i 52 48.0
5 sep epd 07 12 10.0 0.5 s 16nm i 12 19.0
5 sep ipd 07 12 10.0 0.5 s 15nm i 12 19.0
5 sep ep 19 29 04.0 i 29 06.0
6 sep ipd 00 14 59.2 0.8 s 30nm i 15 48.0
6 sep ipd 00 14 59.2 0.8 s 30nm i 15 48.0 i 16 05.0
7 sep ep 00 51 20.0 e 57 37.0
7 sep ipd 07 10 13.8 1.0 s 60nm i 11 40.0
7 sep ipd 10 29 45.7 1.0 s 50nm
8 sep ipd 07 40 28.9 0.7 s 55nm
8 sep ipd 07 40 28.9 0.7 s 55nm
sco
3 sep ip 18 15 44.3 is 15 51.0
4 sep ip 00 46 42.0
mud
7 sep ipd 10 25 31.5 1.0 s 60nm
++