by Chris Peterson » Wed Nov 21, 2007 10:39 pm
iamlucky13 wrote:Are you talking about the inflection point at about 1000 arcseconds on the newest measurement or the one at about 500 arcseconds?
The outer one, at 1000 arcsec. This is a little above the noise floor of the image. Each profile was taken the same way, perpendicular to the tail/spreading pseudonucleus. Along the other axis the coma is larger. Note that the profile curves have all been normalized to the same height, which makes the actual location of the inflection a little ambiguous. I use a second derivative method on the raw profile to identify the point and remove my own judgment from the process.
What's the current apparent magnitude of Holmes?
I'm not sure. I plan on calculating this for all the images I've made, but haven't yet had a chance. Magnitude of an extended object is a fuzzy concept. There is the total integrated magnitude, which is probably still up around 2-3, and magnitude per unit area, which has decreased to the point that the comet is barely visible naked eye.
Would you say it's possible the change from 500 m/s to 700 m/s to be due to a second "eruption" occuring more forcefully? It seems to me that if it were due to the solar wind it would be noticeably lopsided.
I don't think so, because such an outburst would have produced something like a second (or renewed) pseudonucleus, which wasn't seen. Enhanced dissipation due to the solar wind wouldn't necessarily produce a highly lopsided coma, because we are between the Sun and the comet. Or more accurately, the tendency to become oblong is mostly along our line of sight. But we are seeing some elongation of the coma, and it is along the solar-antisolar axis of the comet.
[quote="iamlucky13"]Are you talking about the inflection point at about 1000 arcseconds on the newest measurement or the one at about 500 arcseconds?[/quote]
The outer one, at 1000 arcsec. This is a little above the noise floor of the image. Each profile was taken the same way, perpendicular to the tail/spreading pseudonucleus. Along the other axis the coma is larger. Note that the profile curves have all been normalized to the same height, which makes the actual location of the inflection a little ambiguous. I use a second derivative method on the raw profile to identify the point and remove my own judgment from the process.
[quote]What's the current apparent magnitude of Holmes?[/quote]
I'm not sure. I plan on calculating this for all the images I've made, but haven't yet had a chance. Magnitude of an extended object is a fuzzy concept. There is the total integrated magnitude, which is probably still up around 2-3, and magnitude per unit area, which has decreased to the point that the comet is barely visible naked eye.
[quote]Would you say it's possible the change from 500 m/s to 700 m/s to be due to a second "eruption" occuring more forcefully? It seems to me that if it were due to the solar wind it would be noticeably lopsided.[/quote]
I don't think so, because such an outburst would have produced something like a second (or renewed) pseudonucleus, which wasn't seen. Enhanced dissipation due to the solar wind wouldn't necessarily produce a highly lopsided coma, because we are between the Sun and the comet. Or more accurately, the tendency to become oblong is mostly along our line of sight. But we are seeing some elongation of the coma, and it is along the solar-antisolar axis of the comet.