Jay, W5OLF has sent me an article on the next solar peak suggesting it could be good. The last forecast I saw suggested it could be similar to the last one. Sadly, I think it is too early to tell.
23 Jun 2021
10m Es
In the northern hemisphere we have the sporadic E (Es) season, which offers good QSOs on all modes on bands like 10m, 6m and 4m. Occasionally, it is also good on 2m, but this is far rarer. Skip is usually 800-1500km.
As a child, I used to see what DXTV came through on Band 1 TV. I well recall the lunchtime watching Midi-Pyrenees via Es on 819 lines. On a standard 405 line TV we got 2 images side by side with a black band in the middle. There is far less TV on Band 1 these days. I am not sure which countries still use it.
As is often the case, I am on 10m FT8 RX with the tiny indoor loop antenna. So far today, 5 stations spotted.
UPDATE 1015z: 16 stations so far spotted today on 10m FT8 RX. All Es I think.
UPDATE 1450z: 87 stations spotted so far today on 10m FT8 RX. Furthermost is 5T5PA (3791km) in West Africa. Nothing yet seen from the Americas.
UPDATE 2016z: 116 stations spotted on 10m FT8 RX with the furthermost CE2SV (11716km) in Chile.
Call me sir? - NOT amateur radio
22 Jun 2021
Cambridge Market - NOT amateur radio
160m antenna
There is a misconception that 160m antennas and grounds have to be big. This antenna fitted in a small attic and results suggest it does very well.
Most people have high noise levels on the LF and MF bands these days, but I find FT8, with its effective 50Hz bandwidth, is still effective.
You may be surprised by results. I was.
See https://sites.google.com/view/g3xbm4/home/antennas/160m-loft-vertical .
10m FT8 RX (Tuesday)
At 0718z, I turned on 10m FT8 RX using the tiny indoor loop. So far, 3 spots at 0822z.
UPDATE 1305z: 71 stations spotted so far with the furthermost VO1CH (3737km).
UPDATE 1810z: 96 stations spotted so far today.
10m FT8 RX yesterday
Optical link changed
A reminder that if you find any errors or omissions on my new web pages, please let me know so I can address them. Mike pointed out an old link that I have (hopefully!) corrected. I am sure there are others.
See https://sites.google.com/view/g3xbm4/home/optical-nanowaves/over-the-horizon .




