Difference between revisions of "CephC-LABS Question log"
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#Using the same syntax I would for a journal article: Orr, L., et al., 2017, AAS, 229, 241.10 (http://adsabs.harvard.edu/abs/2017AAS...22924110O) | #Using the same syntax I would for a journal article: Orr, L., et al., 2017, AAS, 229, 241.10 (http://adsabs.harvard.edu/abs/2017AAS...22924110O) | ||
#While the proposal is being reviewed, we'll get started on Resolution issues - we'll talk more about this tomorrow. When the proposal comes back, we'll spend a telecon talking about the comments we got back and what edits we should use, then we can return to Resolution stuff or whatever else we've decided to work on at that point. | #While the proposal is being reviewed, we'll get started on Resolution issues - we'll talk more about this tomorrow. When the proposal comes back, we'll spend a telecon talking about the comments we got back and what edits we should use, then we can return to Resolution stuff or whatever else we've decided to work on at that point. | ||
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+ | '''From John:''' | ||
+ | Not sure if anyone else is in this situation yet, but we are heading this way... | ||
+ | I have been trying to use Google sheets more with classes - and tried Add-ons other apps, etc. Nothing is doing what I want to do (surface plots). Our school is going all Google. I am doing a lab next week with my seniors and thankfully have some old PC's that have excel on them, or I don't know what to I would do. We are going to all Google. (The question:) How will students work on the data unless they have access to a laptop, etc with excel on it? I am having trouble with simple stuff that Sheets won't do - I can't imagine what limits we will be hitting this year with our data. Should I ask students to use their own devices - ask admin to keep some pc's - don't let them take my old machines? | ||
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+ | ''Answers:'' | ||
+ | I asked the NITARP commnity. We have a lot of answers to this question, which I'm not copying in here! | ||
=Questions for March 8= | =Questions for March 8= |
Latest revision as of 22:56, 14 March 2017
(Questions for march 15)
From Olivia:
- For Tom - now that I have a good idea of who and how to select students, what do I do with them once we start meeting? I have several that are chomping at the bit to get started. Do you recommend going through the proposal (before we have approval)?
- Does Google "sheets" function the same way as Excel? Will we be sharing a Google sheets document?
- On our analysis, we said that we are using comparing the c-c and c-m Herschel data of an extragalactic region." What extragalactic region? Are all galaxies are going to have similar c-c and c-m "signatures" (not the right word).
Answers from Tom:
- If you already know who you want to bring, you can go ahead and start working with them. They aren't ready to interact with the group yet, but you can start getting them up to speed on what we are going to be doing.
- My preference is to use Excel-- everyone will have it and most things are set up with it in mind. We can keep our files on Google, but I would prefer to use Excel. Also, a word about anyone who uses a Mac-- in my past groups, it was the Mac user who had issues with things not working out properly. Even though its supposed to be the same software-- things just don't work on a Mac the way they do on a PC.
- Good question-- I don't think that they are all the same-- as galaxies age, the ratio of young stars to old stars changes and that affects the color. The presence of an AGN in the center will also affect the color.
Alternate Answers from Luisa:
- You could start talking to them about any of these :
- light beyond the visible
- space telescopes (Herschel, WISE, Spitzer)
- what is a color image, really?
- logarithms and exponents
- magnitude system (V mag, B mag)
- HR diagrams (which are really color-magnitude diagrams)
I've added a bunch of videos on these and other topics to this playlist, called Ceph-C-LABS Useful Movies: https://www.youtube.com/playlist?list=PLjCjDYabTFm__Fuztj285MWlU8shak1WI Hopefully at least some of them are useful.
- Not really. Only sort of. Lots of Excel functionality is missing. One year when I had a team whose kids were using Google Sheets instead of Excel, that was one of the top lessons learned that they mentioned - don't use Sheets for the Summer visit. Since everyone is already using different versions of Excel, there are already going to be differences in where buttons are, but not basic syntax. Sheets is going to have different syntax as well as different buttons. I suspect that the capabilities are there, but when you're already struggling with the content of what we're doing, unless you are already an expert in Sheets, that just adds another layer of frustration. My preference is no we shouldn't all use the same Google Doc, because I've had too many people overwrite other people?s work in a shared document in Google. You can work on the same doc within your team (you & your students) if you want, of course. But I prefer that we trade Excel sheets back and forth.
- No, all galaxies won't have the same colors/magnitudes, but if we pick a region semi-randomly from one of the extragalactic surveys, we will most likely have a range of galaxies - AGN, nearby galaxies, ellipticals/spirals/barred spirals... The ones that are most likely to look like YSOs are the ones that aren't resolved, that is, not nearby galaxies, but AGN. But, there are AGN everywhere, so any region we pick will probably have plenty. Honestly, the most important quality is that it already has the photometry done for us. :)
From Sam:
- I wrote one of my questions on the proposal draft ...How do we cite Orr et al. from last year?
- I also second Olivia's question about the extragalactic regions.
- What are our next steps after the proposal is reviewed / accepted?
- I have more questions about how light arrives at detectors but can wait on some of these until we start looking at data or if we have remaining time during the meeting.
Answers from Luisa:
- Using the same syntax I would for a journal article: Orr, L., et al., 2017, AAS, 229, 241.10 (http://adsabs.harvard.edu/abs/2017AAS...22924110O)
- While the proposal is being reviewed, we'll get started on Resolution issues - we'll talk more about this tomorrow. When the proposal comes back, we'll spend a telecon talking about the comments we got back and what edits we should use, then we can return to Resolution stuff or whatever else we've decided to work on at that point.
From John: Not sure if anyone else is in this situation yet, but we are heading this way... I have been trying to use Google sheets more with classes - and tried Add-ons other apps, etc. Nothing is doing what I want to do (surface plots). Our school is going all Google. I am doing a lab next week with my seniors and thankfully have some old PC's that have excel on them, or I don't know what to I would do. We are going to all Google. (The question:) How will students work on the data unless they have access to a laptop, etc with excel on it? I am having trouble with simple stuff that Sheets won't do - I can't imagine what limits we will be hitting this year with our data. Should I ask students to use their own devices - ask admin to keep some pc's - don't let them take my old machines?
Answers: I asked the NITARP commnity. We have a lot of answers to this question, which I'm not copying in here!
Questions for March 8
LMR example question: Where did you guys find the graphic that shows the entire Ceph OB3 region? LMR example answer: In the Sargeant 1977 article. That's the discovery paper that named Ceph C, Ceph C. It's in the Box drive, in the papers directory, in the "maybe less relevant" subdirectory.
From Sam: Here are my questions...sort of a flurry all related to what the data we're going to be analyzing means...
So if a picture is just an array or grid of numbers that get assigned colors...What do those numbers represent or mean? Number of photons collected? The total energy of the photons collected during the collection window? Can multiple sources in the field of view send photons to a single pixel? How do we know which source sent the photons to each pixel?
I can learn more about HOW each pixel turns the collected photons into a number later, but I am just curious about WHAT the pixel does with the collected photons and what it outputs. In other words, what does the raw data we will be working with represent? What do the FITS file numbers mean? I imagine that a pixel collecting 5 high energy photons could feasibly give the same 'output value' as a pixel that collects 10 lower energy photons...assuming it is able to collect and count photons of different energies and filters weren't involved (even though they usually are). The material in the CCD probably only responds in certain ways to certain photon energies...hmm.
Response from Tom: The photons that are being collected have passed through a filter so they are of approximately the same energy-- the ones with too little or too much energy (they are the wrong "color") don't make it through the filter and so aren't detected. This filter may be a physical filter in front of the detector or it could be a limit of the detector itself.
Response from Luisa (still stuck on iPhone): What the numebrs mean depends on how you detected the light and how you process the data before you display it. Spitzer and some Herschel data in MJy/sr. Yes, multiple sources can send photons to the same pixel, and the only way we can distinguish them is to bring information from elsewhere into the thought process. re: raw data -- what I mean by raw data may not be what you mean. We aren't working with raw data. What the numbers mean depends on which instrument from what telescope, and what processing the image has undergone. WISE data still in counts (close to raw) but calibration stuff in FITS header. Spitzer definitely not raw; it's calibrated (processed such that absolute flux density in FITS image). That is in MJy/sr. Herschel data also definitely not raw. From what I have read, some in MJy/sr, some in MJy/pix. I think. More when I get back to the office. The FITS files numbers all correspond to brightness in some units. Sometimes it is in counts (electrons), sometimes someone has converted those counts into absolute brightness in some other units. Exactly what it means (and how to convert it into units that we can use in SEDs and color-color/color-mag diagrams) depends on the instrument/telescope/processing. Tom is exactly right that filters impose a limit on what photons make it to the detector, AND the detector physics itself also cuts off some photons - some detectors aren't sensitive to any incident light beyond a certain frequency.
From Olivia: I would like Tom to share with us the logistics of bringing students into the project. What kind of information did you initially share with them? Was it all done during your Research class?
Related to Sam's train of thought: energy per photon of IR is going to have less energy than photons of visible light, UV or X-rays - does this matter?
Response from Luisa (stuck on iPhone): energy of photon given by h*nu where h is Planck's constant and nu is frequency of light. So yes, bluer=more energy. If you want to make an X-ray detector you have to think (design, etc) differently than for FIR detector. This is why light detected very differently across EM spectrum.
From Sam:
I guess one of the next steps once I figure out what the pixels output and how they collect the photons is to be able to take that info and convert it into different units so that we can construct SEDs and other diagrams. I've worked on trying to understand some of the "Units" page on the wiki...http://coolwiki.ipac.caltech.edu/index.php/Units
I got a little stumped about halfway down in the SEDs section...Could you elaborate on the equations in the big gray box that say "dF/dlambda = dF/dlambda*(dv/dv)...etc." and why you had to do that to do the conversion from Fv to Flambda?
Others:
In what situations is flux density is preferable to simply flux?
For 'flux density'... why not divide J/s/m^2 by the photon energy rather than the frequency? Like this J/s/m^2/(J/photon) = photons/s/m^2 . This would tell you how many photons were hitting an area each second...right? aka..how "densely packed" in the photons were! I guess frequency and energy are proportional so it probably doesn't matter.
Response from Luisa: Just in explicit answer to your questions (but really, we will go over the complicated units in detail in July, so don’t stress if none of this makes sense). The sequence is (and I think you’re missing the ones with the *) : light hits detector, detector records information, *pipeline runs to convert the raw data into something physically reasonable and gives it to you as a FITS file, *make quantitative measures of the flux (e.g., do photometry), convert mags to flux densities (and flux densities to mags) as needed, add measurement to SEDs and color-color/color-mag diagrams. For "why lambda", look a bit down the page for "notes on plotting." For the derivation of this, with all the gory math, I can scan for you pages out of Rybicki & Lightman, “Radiative Processes in Astrophysics” but be aware this is a graduate textbook… I’m not expecting you to derive this. The "per Hertz" or "per length" in the energy density is really "per photon frequency" or "per photon wavelength." So it’s tightly tied to the photons. Flux is energy per unit area per unit time (flux per sec per square meter). Flux density is energy per unit area per unit time per photon. You need energy density to plot for a spectral energy distribution (otherwise it wouldn’t be an s*E*d). Energy density is lambdaFlambda or nuFnu