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The effective depth of the atmosphere ( Sea level pressure divided by sea level density and gravity ) is 8.5km, and microwaves arriving from space at an elevation angle of E travel through 8.5 / cos(E) kilometers of atmosphere. The attenuation trends upwards with frequency, with absorption peaks at frequencies where oxygen or water molecules resonate. The attenuation at 70GHz is 0.79dB/km, so the attenuation is 6.32 dB / cos(E), a factor of 4.29 at zenith (E = 90°) and 17.8 at 30 ° elevation. The effective depth of the atmosphere ( Sea level pressure divided by sea level density and gravity ) is 8.5km, and microwaves arriving from space at an elevation angle of E travel through 8.5 / cos(E) kilometers of atmosphere. The attenuation trends upwards with frequency, with absorption peaks at frequencies where oxygen or water molecules resonate. The attenuation at 70GHz is 0.79dB/km, so the attenuation is 6.32 dB / cos(E), a factor of 4.29 at zenith (E = 90°) and 17.8 at 30° elevation.

Path Attenuation due to Orbital and Latitude Elevation

FCCatten2.png

The atmosphere attenuates microwaves. This graph is from FCC bulletin 70, Millimeter Wave Propagation: Spectrum Management Implications , July 1997.

The effective depth of the atmosphere ( Sea level pressure divided by sea level density and gravity ) is 8.5km, and microwaves arriving from space at an elevation angle of E travel through 8.5 / cos(E) kilometers of atmosphere. The attenuation trends upwards with frequency, with absorption peaks at frequencies where oxygen or water molecules resonate. The attenuation at 70GHz is 0.79dB/km, so the attenuation is 6.32 dB / cos(E), a factor of 4.29 at zenith (E = 90°) and 17.8 at 30° elevation.

Path attenuation versus latitude, zero azimuth

relative

path length

latitude

elevation

attenuation

(km)

0

90.00

1.00

6418

5

80.07

1.04

6466

10

70.36

1.16

6608

15

61.04

1.40

6837

20

52.24

1.82

7143

25

44.00

2.60

7514

30

36.34

4.16

7939

35

29.23

7.88

8406

40

22.62

19.75

8906

45

16.46

85.59

9430

50

10.69

1436.42

9970

Find thinsat density versus elevation

MoreLater

Note - At 170 GHz, that looks like 26dB/km. Through 7 equivalent kilometers of troposphere, that is about 180 dB attenuation at zenith. The stratosphere is dry and thin, so receivers at that height will absorb essentially all energy broadcast from space.

RECOMMENDATION ITU-R P.618-6 PROPAGATION DATA AND PREDICTION METHODS REQUIRED FOR THE DESIGN OF EARTH-SPACE TELECOMMUNICATION SYSTEMS

Satellite Communication Fundamentals Kadish and East Artech 2000 chapter 11 (have)

PathAttenuation (last edited 2015-05-20 03:12:55 by KeithLofstrom)