Intro Over this week, we observed using three telescopes (the 40ft, the 20m, and the GBT). We also analyzed pointings for candidates which we observed.

Slides:



Advertisements
Similar presentations
Team Taylor Observations with the GBT Candidates When a plot or dataset looks like it has a unknown Pulsar, students submit it to one of the astronomers.
Advertisements

This absorption line was found on November 19 th at right ascension 18:23:00 and declination 13:09:00. In this example, the data taken by the BON database.
1 Stellar Remnants White Dwarfs, Neutron Stars & Black Holes These objects normally emit light only due to their very high temperatures. Normally nuclear.
Team Presentation July 22, Jodrell Bank is the original arboretum for Manchester University. Immediately after World War II, first radio telescope.
Experimental Design Review
Pulsating Pulsars: Adventures Outside the Gridding Iron Susan Booth (VAST), Nick Borowicz (Argo Community HS, Summit, IL), Rob Culbertson (Langley HS,
Rome Navigation Innovations 2/7/06 1 Show By Example How Evaluation of Data Performance in General Will Be Carried out Showcase Geometry Data Alignment.
B RA:16:45 DEC: -03:17 DM: We used a known pulsar to practice on. You have to do a practice pulsar to make sure that the computers and equipment.
Fourier Transforms - Solving the Diffusion Equation.
What does do? Mini-project for CSE 260 Qian Peng 15 November 2001 Ref.
Dakota Johnson, Tildon Johnson, Kyle Barker Rowan County Senior High School Mentor: Mrs. Jennifer Carter Abstract Data Analysis Acknowledgements Radio.
Pulsing Prizes By: Kyle Wenger and Megan Weaver, (Broadway High School, Broadway, VA) How old might they be? Using the ATNF catalog we have approximated.
Abstract Pulsars are highly magnetized, rotating neutron stars that emit a beam of electromagnetic radiation. The radiation can only be observed when the.
PSR J1400 – 1410 Jessica Pal Rowan County Senior High School Introduction Data Analysis Summary Acknowledgements Results A pulsar is a rapidly rotating.
RF Noise and Radio-Astronomy. A Brief History of Radio Astronomy 1860's Maxwell develops equations that govern electromagnetic (EM) waves. 1860's-1930's.
1 Stellar Remnants White Dwarfs, Neutron Stars & Black Holes These objects normally emit light only due to their very high temperatures. Normally nuclear.
Look, up in the sky! By: Lucas Bolyard, Luis Garcia, and Zach Ewen. Prep Fold Plots Looking at Pointings in the sky Up until this point in time, Team Disney.
MeetingDateMaterial 102/04/2015Penn State PSC Overview 202/11/2015Pulsar Properties 302/18/2015Game Show Review 402/25/2015Poster Assignment Introduction/Summer/
10/27/2015 Sociology of Communications 1 RU-Camden? Ashli Williams.
Hulse Team Pulsar Research Adam Kelsey, Consuela Hancock, Magaly Rosales, Cameron Deem, What Exactly Is A Pulsar? A pulsar is a rapidly spinning neutron.
Finding Fast Pulsars Today andTomorrow Pulsar Timing Array - A Nanohertz Gravitational Wave Telescope July 21-23, 2005 Jason Hessels McGill University.
Your Discovery is Here. The Pulsar Search Collaboratory.
 Tyler Farrell - Westosha Central High School, WI  Heather Frank - Fort Hill High School, MD  Annie B. Agee - Patrick Henry High School, VA  Emily.
Introduction “Tick, tock, tick, tock.” Clocks help keep us on schedule everyday, but how does our own galaxy keep in time? Pulsar’s are natures very own,
Looking at What We Can’t See: Pulsar Radio Observations ST 562 Radio Astronomy For Teachers By: Cecilia Huang and Joleen Welborn.
Spin Frequency and Harmonics of Pulsar J Abby Chaffins Spring Valley High School Huntington, West Virginia. Equations Frequency f = Spin Frequency.
Basic Time Series Analyzing variable star data for the amateur astronomer.
Team Lyne Conclusive Presentation Pulsar Search Collaboratory Heather Frank, Tyler Farrell, Annie B. Agee, Emily Dick, Trent McDaniel Caitlin Ahrens &
Who discovered the first pulsar? Jocelyn Bell Pulsars spin fast due to what physics concept?
Atacama Large Millimeter/submillimeter Array Expanded Very Large Array Robert C. Byrd Green Bank Telescope Very Long Baseline Array Radio Frequency Interference.
JABAK Pulsar Data Analysis Introduction/Purpose When we arrived in Green bank, we did not know what a pulsar was. Now we know their identifying qualities.
Team Bell Anna, Kris, Cassie, Chandler, Ellen, Firas, Tessa, and Josh An investigation into Pulsar Data collected by the Green Bank Telescope.
Goal: To understand voids Objectives: 1)To examine the Size and distribution of voids 2)To understand the Properties of voids 3)To learn about the Formation.
Team Hulse James J. Joshua M. Daniel P. Adam P. James M. Shane J.
Neutron Stars When stars about five times the mass of the sun run out of fuel, their own weight compresses the material unbelievably. The protons and.
Team Lyne Delaney Jeanine Pigott Elizabeth Leigh Schmitz Mariah Francine Gnegy Zachary Filmore Ramey Dana Marie Dawley Thomas Eugene Hillenbrand Team Mentor:
Pulsar Search Collaboratory Team Bell Cameron Meador Joey Martinez Erin Fankhanel Evan Graber April Liska Kriston Smith Teachers Mr.Weaver Mrs. Larew.
Hulse Catches the Pulse! PSC Summer Institute 2011 By: Jacob Straley, Jacob Houdyschell, Chandler Smith, Nathan Keithline, Allie Sperry, and student mentor.
Turn Down the Noise ! Team Taylor Nathan, Audrey, Alicia, Ben, Skylar, Josh 2.
Pulsar Search Collaboratory Team Disney Modified Julian Date:
REDUCTION OF GALFACTS DATA AND VARIABLE RADIO SOURCES Scott Barenfeld with Tapasi Ghosh and Chris Salter.
Labs Unit 1 - Science. Labs  We will be doing many labs in class.  Labs are completed in groups of 3 or 4.  Your group is formed by either your entire.
Using the GAVRT Radio Telescope: The SETI Project
Using a Radio Telescope
Using the GAVRT Radio Telescope: The SETI Project
FRB Backend First Light
Long-Term Timing of Globular Cluster Pulsars
Using the GAVRT Radio Telescope: The SETI Project
Welcome to the Pulsar Search Collaboratory (PSC)
Radio astronomy at Green Bank
Andy Marx Jason Granstedt Jeremy Thorley Robbie Culbertson
Pulsar Data Search Evaluation
Erin W Gunner H Anna D Shane C Carly L Shane S. Mentor: Sean
Team Taylor: John, Lori, Casey, Tonia, Joey, Elizabeth, and Lazar
An In-depth Analysis of Radio Astronomy
Pulsar Search Collaboratory
Parkes’ Potential Pulsars
Team Bell Pulsar Analysis
The Hunt for Pulsars Rowan County Pulsar Astronomers Abstract
Pulsar 3: Significant peaks, well above the noise
Deep Space Exploration Society
Pulsar Data II Single-Pulse Plots
Pulsar Data I 1.
Team hulse pulsar collaboration
Amateur Pulsar Detection With EME Equipment
Deep Space Exploration Society
Disney Reaches for the Stars Pulsar Search Collaboratory
Pulsar Data II Single-Pulse Plots
Team Parkes PSC 2011.
Note Pack #1 September 10, 2015 Aim: What is Earth Science? Do now: Pick up “Note Pack #1” - Put your name and date on it Write down 3 things that you.
Presentation transcript:

Intro Over this week, we observed using three telescopes (the 40ft, the 20m, and the GBT). We also analyzed pointings for candidates which we observed using the GBT. We learned that there is a lot more noise and RFI out there than pulsars. We also learned that observing is time consuming and that most of the time you don't get anything. Astronomy requires perseverance. Mostly we learned how to analyze the plots correctly so that candidates can be found and to find out if the candidates are either known pulsars or unlikely to be pulsars because of their DM. Because of our work here, we now have a better understanding of pulsars, why they are important, and observing in the radio. Noise Sometimes plots tend to look like a mess. Such occurrences are due to the presence of noise during the recording process. Noise is an always present force when looking for radio waves. Some plots with noise may look like this; Observing Our team observed using Green Bank's 40ft teaching telescope, the 20m telescope, and the GBT. We observed the galaxy Virgo A and the galactic center using the forty foot, having to observe twice to get the data we wanted for the latter. With the data we received, we found the brightness of both objects in Janskies and how large they are. We observed the same objects using the 20m through Skynet. This observation was less useful as it is still unclear as to how the graphs are supposed to be interpreted. Later in the week, we went through groups of pointings to find potential pulsars. Once we had our candidates, we were given time on the GBT from 5 am to 7 am. During this time, we operated the telescope with the assistance of graduate students Joe and Fernando. We also learned how to fold the data so it could be more easily interpreted. When our data was finally put into the final plot, we discovered that we had observed noise and one known pulsar. Micah Dingus, Tildon Johnson, Christian Lewis, Emily Schulman Broadway High School, Rowan County Senior High, Sherando High School, T.C. Williams High School Known Pulsars Although finding these may be discouraging, it is important we do. It helps us understand everything we can about the pulsar that was found. If a plot looks good and the DM checks out you get excited, but then if you run the R.A. and Dec through the ATNF catalogue, you may find that the pulsar has already been discovered. We found several this week. Conclusion Even though a new pulsar was not found, the team had an excellent time learning more about Radio Astronomy. We observed on three different telescopes and learned about the different ways of observing (remotely, with old technology, and with new technology). While all we found at the GBT was noise and a known pulsar, it was not wasted time. As Jocelyn Bell stated: It’s important to know where there are not things, as well as where there are. Acknowledgments photos.html And a special thanks to everyone that made this week all that it could be and a life long memory. RFI Many times while hunting for pulsars we come across a plot that is contaminated with RFI. This is radio signal that the telescope picks up from everyday sources. This pulsar was so bright that it dominated an entire pointing where 30 plots were of this pulsar. RFI can look similar to a pulsar but if you really pay attention you notice definite differences in the plots. In this plot the Pulse Profile and Time Domain are perfect, but the Sub-Band shows a narrow banned frequency, and the DM has no definite peak. Noise usually makes up a good percentage of the plots in a dataset. Noise could be from the equipment for the telescope, remnants from the Big Bang, or from the radio emissions of other objects in space. RFI and Pulsar emissions can be identified apart from the noise because the noise will be significantly lower than the radio waves of the RFI or Pulsar. This plot was obtained of the PSC website examples This pulsar is named B , or J It has a spin down rate of E-17 (s/s). We found this by running the R.A. and Dec through the ATNF Catalogue. This plot is from a follow up at the GBT for a candidate, we hoped that a pulsar would be found though all that was, was a conglomeration of noise