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(VPS 110324-0, 24/03/2011), Outbound message X-Antivirus-Status: Clean DomainKey-Status: good (testing) X-Spam-Score: 0.0 (/) X-Spam-Report: autolearn=disabled,UNPARSEABLE_RELAY=0.001 Subject: LF: Re: Phase variations and FFT resolution Content-Type: text/plain; charset="utf-8" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.0 required=5.0 tests=none autolearn=no version=2.63 X-SA-Exim-Scanned: Yes Sender: owner-rsgb_lf_group@blacksheep.org Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group X-SA-Exim-Rcpt-To: rs_out_1@blacksheep.org X-SA-Exim-Scanned: No; SAEximRunCond expanded to false x-aol-global-disposition: G X-AOL-SCOLL-AUTHENTICATION: mail_rly_antispam_dkim-m257.1 ; domain : btinternet.com DKIM : fail x-aol-sid: 3039ac1d411a4d8bd3503173 X-AOL-IP: 195.171.43.25 X-AOL-SPF: domain : blacksheep.org SPF : none Content-Transfer-Encoding: quoted-printable Hi Markus I didnt look at the dates but if you look at the X-ray flux variations over those days, you may see something that might correlate= with a slight difference in the "reflection height". During the quiet perio= d a couple of years ago I saw sililar amplitude variations on Lakihegy as received here, but was not able to montor phase which anyway as we kno= w is not consistent :-)) Alan G3NYK ----- Original Message -----=20 From: "Markus Vester" To: Cc: "Paul" Sent: Thursday, March 24, 2011 10:43 PM Subject: VLF: Phase variations and FFT resolution Hi Stefan and Paul, thank you for sharing the most interesting NAA phase plot. Yes I understand that variations of ionospheric height will Doppler-sp= read any spectral line especially during the dawn and dusk periods, and ultimately the signal might be smeared out so much that there is no mo= re benefit in higher resolution. But I do not think that a 47 uHz FFT is= beyond the limit. Though the signal is integrated over about 6 hours, due to= the usual windowing the tails are less heavily weighted, reducing the "effective" duration to about 4 hours. A perfectly linear phase slope would simply place the maximum in an ad= jacent bin. So the trace will wobble a bit, with a lower frequency while the terminator moves across the path during the evening, and higher in the morning period. Only the deviation from a linear fit will lead to a lo= ss of bin magnitude. The effect depends a bit on the probability distributio= n of the phase deviation, uniform distribution gives a sin(x)/x behaviour.= If all phases within a 90=C2=B0 interval (ie. +-45=C2=B0) appear equally ofte= n, the degradation is only 0.9 dB. With 180=C2=B0 you'd still have -3.9 dB le= ft. To kill the signal completely, you'd have to spread the phase across the whole= 360=C2=B0. To illustrate this and to coarsely estimate the phase deviation, I hav= e sketched slant coloured boxes across the slopes in Paul's graph. The= slopes have a duration of about 6 hours (morning, +60 uHz) and 4 h (evening,= -40 uHz), and the vertical width of the boxes is on the order of 90=C2=B0.= (It looks as if the sign of the phase was opposite to the usual convention, as= the sunlit path (12 to 18 UT) should be shorter, with phase advancing towa= rds more positive (up) rather than negative values). Assuming that NAA is perfectly GPS synchronized, the systematic shift= of the daytime phase is astounding. A possible simple explanation is that day= s are becoming longer during the spring season, and midday solar elevation= is increasing from day to day. With a given absolute path length variation, phase deviation should sc= ale more or less proportional to frequency, so the adverse effect on 9 kHz should be 2.5 times less than on 24 kHz. In essence, I expect only lit= tle phase spreading loss across an intercontinental path at 9 kHz and 47= uHz resolution. On the other hand, a very much longer integration across day and night= (eg. 12 uHz) would not seem to make much sense, not only due to the phase= effects but also due to the variations in signal level and background noise. Best 73, MArkus (DF6NM) From: Stefan Sch=C3=A4fer Sent: Thursday, March 24, 2011 7:01 PM To: rsgb_lf_group@blacksheep.org Subject: Re: LF: Wasilla Alaska VLF - offline Hi Laurence, Markus, VLF, Hmmmm, about the 60000 windows, Paul Nicholson means.... (see a part= of our emails below) Am 19.03.2011 09:41, schrieb Paul: Hi Stefan, > Well, you see people are running slower and slower windows, > such as "DFCW-60000" There is a limit set by the variability of the path length. For example, see http://abelian.org/vlf/tmp/110319a.gif This shows the absolute phase of NAA at 24kHz over a great circle distance of 4672km. The graph spans 5 and a bit days. During the day the phase advances because the D-layer height falls from about 90km to 70km. The pattern repeats each day with the night-time phase (path length) pretty much the same each night, but the daytime path varies. The path change between day and night is almost a complete cycle at 24kHz, so we might expect 100 to 120 degrees at 9kHz. The value of a long coherent integration will be significantly reduced if the phase changes by more than 30 or 40 deg. If the phase changes by more than 90 deg, a long integration will be worse than a shorter one. Maybe "60000" is better anyway, as seen between DJ8WX or OE5ODL and TF= 3HZ. Anyway i would start with a faster mode and go for a slower, if nothin= g is visible. It's your dicision, Laurence :-) 73, Stefan/DK7FC Am 24.03.2011 11:40, schrieb Markus Vester: Hi Laurence, if I had only one to choose from, I'd definitely opt for the slowest "60000" window at 47 uHz. Depending on antenna orientation, this would definitely give Scott a chance, or perhaps one of us over here. Would= an onnidirectional E-field work as well for you as the RX loops? Running the second FFT for the Alphas nearly doubles the CPU load,= so you may want to skip that. Thanks for the great work! Best 73, Markus