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Everything posted by robin_astro
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3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
Actually a half wave dipole in free space has an impedance at the feed point of 73 ohms. though that depends on the height above ground. Adding parasitic elements also reduces the impedance. In the article I referenced above, the 72 ohm impedance of the 3D corner antenna similar to this one with a 3/4 wavelength element was reduced to 50 ohm by adding an additional parasitic element, though this design does not have this. Robin -
3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
Yes I suspect some kind of matching arrangement otherwise why is it there rather than mounting it directly to the ground plane ? Perhaps the element just slides within the box to tune the length to resonance (The 53cm long element is an electrical 3/4 wavelength long to resonate at 70cm when mounted on the ground plane.) I would want to know before building this though Cheers Robin -
3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
The chicken wire should be connected along all edges and to the ground plane plate and outer of the coax connector. See page 20 of this paper for example for tips on building a 3D corner antenna https://www.qsl.net/yu1aw/ANT_VHF/shorten3dcra.pdf -
3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
What is inside the box the antenna element is mounted on ? What is inside the box ? -
3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
The ratio of antenna length to thickness affects bandwidth. A thicker antenna element increases bandwidth -
3D Corner Reflector for Pulsars
robin_astro replied to Coto's topic in Radio Astronomy and Spectroscopy
any multiple of 1/4 wavelength will resonate -
Point of view
robin_astro replied to Michael Kieth Adams's topic in Physics, Space Science and Theories
The distant objects are not moving through space. The distance between them and us is increasing because space is expanding. The measurement of time and distance are not absolute but are dependent on the motion of the observer (special relativity) and distribution of mass ie gravitational field (general relativity) -
Upcoming spectroscopy presentation
robin_astro replied to Merlin66's topic in Radio Astronomy and Spectroscopy
Yes this is the latest in a series of workshops and other initiatives over the past few years by the BAA to support members wanting to get into spectroscopy and produce useful scientific data. You can see the presentations from the first workshop which kicked off this initiative in 2015 here https://www.britastro.org/downloads/15701 The BAA now also have a spectroscopy database, to complement their variable star database. Good quality spectra of any object can be submitted for use by researchers. Over 4000 spectra have been added in the 2.5 years it has been running https://britastro.org/specdb/ Earlier this month the BAA also took part in a Pro-Am session at the professional UK National Astronomy Meeting where I gave a short paper on amateur spectroscopy, https://nam2019.org/schedule-by-session/details/27/325 a follow up to one I gave at the same meeting 10 years earlier. http://adsabs.harvard.edu/abs/2009JBAA..119..121L The number of amateurs doing spectroscopy at a Pro-Am level has increased significantly over the past 10 years. Robin -
The Habitable Exoplanet Hunting Project
robin_astro replied to alberto91's topic in Physics, Space Science and Theories
Your plan is to detect 1 mmag transits. This level of precision sounds tough to me. Have you checked with any of the experienced amateurs already doing this sort of work if this is achieveable? -
Fast radio bursts and amateur astro community
robin_astro replied to vlaiv's topic in Physics, Space Science and Theories
There are a lot of deep optical surveys looking for transients already running. If there are bright fast optical transients around it would be surprising if someone had not picked up on these already. Provided images are not undersampled, I dont really see cosmic ray hits producing false positives for fast optical transients. Optical transients and cosmic ray hits etc are easily distinguished from their PSF so you don't need synchronised telescopes to distinguish them, just a second follow up image. An independent corroborating image showing the transient would be useful to convince sceptics that the detection is real of course but a first step could be to check some existing sub images looking for potential transients which are not cosmic ray hits to see how many candidates there might be. -
Fast radio bursts and amateur astro community
robin_astro replied to vlaiv's topic in Physics, Space Science and Theories
The problem is cosmic ray hits are not the same as detecting " a couple of photons" though. A cosmic ray hit produces typically tens of thousands of electrons in the detector so are extremely strong signals. I think you would have a problem detecting the correlation of a weak signal between amateur images. I have sometimes wondered though about using synchronised telescopes to do high speeed photometry, removing scintillation noise by cross correlation and detecting high speed variability brightness in targets. Robin -
The loss of light from internal reflection is insignifcant compared to other losses but that is not the problem with the front surface mirror you are proposing to use. It is important that reflective coated surface with the slit engraved in it is on the face towards the spectrograph not towards the telescope (ie mirror slits are back surface, not front surface mirrors) otherwise you risk ghost spectra from the internal reflections. The back coated slit gives weak ghosts in the guider image but as Ken pointed out these are not a significant problem. Cheers Robin
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It is a dumb question anyway. Using the figure of 0.5 arcsec (presumably as measured from earth using an object outside the atmosphere), the distance to the hypothetical book held in front of the telescope in part A is (spoiler alert) much less than the depth of the atmosphere, even from Mauna Kea so we would need to know the resolution as a function of atmospheric thickness. I sometimes wonder if brighter students who actually think, fail at the first hurdle because of this sort of "spherical cow" type question. Here is another one
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Need help with three questions
robin_astro replied to Ronnie67's topic in Physics, Space Science and Theories
For (a), if this was a real situation and not a typical simplistic course question, then you would also need to consider the solar spectral energy density, the atmospheric transmission and the efficiency of the solar cells with wavelength. (Not sure why they have given you the diameter of the sun, except that with this and the luminosity, you could estimate the temperature and hence the spectral energy density, though I doubt that is what they intended. Cheers Robin EDIT: Holy thread resurrection batman! -
First test of LOWSPEC.2 Spectrograph
robin_astro replied to ejp1684's topic in Radio Astronomy and Spectroscopy
Hi Eric, That's a nice build and first light results. You can get to impressively high resolution to with the 1800 l/mm grating. There are some recent results with this grating on the VdS forum, for example splitting the binary components of Mizar in the H alpha line https://forum.vdsastro.de/viewtopic.php?f=24&t=5685 Cheers Robin- 6 replies
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No it doesn't. As well as your schoolboy error mixing radians and degrees, You can measure the position of the star ie the centroid of the star image to much greater precision than the resolution
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The significance of this observation, that inertial and gravitational mass (the two m's in the two equations) are apparently exactly equal and why this should be so, runs very deep and was finally neatly solved by Einstein's theory of general relativity. ie that gravity is not actually a force but a curvature of spacetime caused by the masses.
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Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
This is just speculation as I dont have the figures but I suspect these USB sticks are deliberately designed with low gain to avoid problems with overloading so are pretty deaf (They have an unfiltered front end and are just designed to receive strong signals from commerical stations eg TV in the presence of other strong signals.) The additional pre-amp plus filtering just turns them into a typical weak signal receiver configuration to give a measurable output . The second pre-amp could possibly be relocated to the other end of the feeder without affecting performance. Cheers Robin -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
https://en.wikipedia.org/wiki/Electrical_length the probe needs to be 1/4 wavelength long but this is not the same distance as in free space The correction factor depends on several factors which are difficult to predict accurately, hence the need to trim the antenna element to length or use the figure established for a given design. For example the particular Seti feed design posted has a probe length of 4.6cm compared with your calculated free air 1/4 wavelength of 5.25cm From wikipedia The electrical length of an antenna element is, in general, different from its physical length[better source needed] [4] [5][6] For example, increasing the diameter of the conductor, or the presence of nearby metal objects, will decrease the velocity of the waves in the element, increasing the electrical length.[7][8] -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
Are you planning to tune the antenna by trimming the length? If not, 5.25cm will not give the correct resonant frequency. It will be too long. What you need is the electrical length to be 1/4 wavelength which will be shorter than this, depending on a number of factors. Unless you are planning on tuning to resonance I would advise constructing a feed to the exact specification and dimensions of a known design. Robin -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
I suspect they just chose 1/8" tube because it slipped nicely over the end of the N connector pin making a robust construction. Robin -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
I wonder if any geostationary satellites put out signals near the radio astronomy bands (intentionally or otherwise) which could be useful as beacons, avoiding the need to track a target while trying to optimise a setup. A quick google found this reference to L band downlinks used for satphones for example. http://www.satsig.com/cgi-bin/yabb2611/YaBB.pl?num=1506439429 Robin -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
Could be useful when fine tuning the system/dish to optimise it perhaps? Integrating a continuum signal over a wide bandwidth Robin -
Anyone doing hydrogen line observing?
robin_astro replied to Carl Reade's topic in Radio Astronomy and Spectroscopy
Watch this space ? . Your results have certainly rekindled my interest in this area but like various other unfinished projects, it may take me a while to get round to it ? Robin