Post on 15-Jan-2016
Radio Astronomy in School
Suceava “Ştefan cel Mare” State University Planetarium / Observatory
Cezar Leşanu
www.hardhack.org.au
Electromagnetic spectrum
Atmospheric electromagnetic opacity
www.wikipedia.com
We highlight some radio astronomy projects promoted by renowned institutions around the Globe, relatively accessible in terms of level of knowledge required, availability of the equipment, and investment.
These projects are addressed to high school and university students as well as to amateur astronomers, and involve the participants in a wide range of hands-on activities, from building, assembling, and calibrating the hardware setup to analyzing and sharing the data over the internet, all in a interdisciplinary learning process.
• is a non-profit scientific, educational corporation, founded in 1989 by a team of NASA employees
• investigation of very low frequency (VLF = 0 Hz to over 100 kHz) radio signals in the earth's magnetosphere
• These signals are both manmade and naturally occurring (most of which originate from lightning)
Interactive NASA Space Physics Ionosphere Radio Experiments"
INSPIRE VLF3 receiver kit
Field observation setup:
• INSPIRE VLF3 receiver with stereo cable
• Portable cassette tape recorder with headphones
• Whip antenna • Ground stake
http://www.tnskynet.com
Links
• INSPIRE project home page
http://theinspireproject.org/
• “Listening to Northern Lights” Video
http://www.youtube.com/watch?v=eHvdZdsIZxg
• Live VLF Natural Radio Streaming http://abelian.org/vlf
Radio Meteor Observation
• meteoroids disintegrate at an altitude of 80 to 130 km
• the trails they leave behind are full of ionized gases that reflect radio waves
• distant VHF(30MHz-300MHz) radio signals can bounce off the meteor trail (forward scattering method)
• can monitor meteor activity regardless the weather conditions and at daytime
Radio detection of meteors
Transmitter
Continuous wave
(FM carrier)
Receiving station
Radio Meteor Observation Experimental setup
FM radio receiver with digital frequency readout
( SSB receiver
Black box
+ PC interface
+ PC soundcard )
Radio detection of meteors at “Nights of Perseids” festival,Horodnic 2008/2009.
Radio Meteor Observatory On Line at USV
Links
• International Meteor Organization http://www.imo.net
/radio • The G7IZU Radio Reflection Detection Page
http://www.tvcomm.co.uk/radio/
• “Meteormania” Video – BBC 4 TVhttp://www.tvcomm.co.uk/radio/video/meteormania.wmv
• Radio Meteor Observatory's On Line http://www.rmob.org/index.php
• is an education project to build and distribute inexpensive ionospheric monitors to students around the world
• the monitors detect solar flares and other ionospheric disturbances
• Earth's ionosphere reacts strongly to the intense x-ray and ultraviolet radiation released by the Sun during a solar event
• the signal strength from a distant VLF transmitter, reflected by ionosphere, will follow this changes
SID Sudden Ionosphere Disturbance monitor
Super SID Receiver - simple and low-cost
“wire-loop antenna”
Super SID
(New SDR based VLF receiver)
Links
• Stanford Space Weather Monitor program http://solar-center.stanford.edu/sid.html
• Society of Amateur Radio Astronomers
http://www.radio-astronomy.org/node/142
• Tennessee SkyNet Observatory
http://www.tnskynet.com/SID-VLF.php
NASA Radio Jove Project
• was conceived in 1997 by a team headed by Jim Thieman at Goddard Space Flight Center
• sold its first receiver kit 1999 (10th anniversary – almost 1400 kits sold)
• observe and analyze natural radio emissions of Jupiter (bursts), the Sun (Solar flares), and our galaxy (transit)
• Frequency of operation 20.1 MHz• Receiver type: direct conversion
(a hamradio transceiver can be used – expensive)• Antenna: dipol λ/2 or phased dipol or multi-element
phased dipole antenna
http://fringes.org/
Radio-SkyPipe Software - An Internet Enabled Strip Chart Recorder
http://www.radiosky.com
Radio Jove at ATLANTYKRON Summer Academy 200550th anniversary of the discovery of Jupiter's natural radio emissions
Links
• NASA Radio Jove Projecthttp://radiojove.gsfc.nasa.gov/
• The Internet Jupiter Radio Observatory Kochi JPhttp://jupiter.kochi-ct.jp/
• Radio bursts from Jupiter video - CFAROhttp://www.youtube.com/watch?v=H6wkt_8a-6A
• Radio burst from the Sun – CFAROhttp://www.youtube.com/watch?v=smuHQzDy3i0
Small total power radio telescope
Offset TV satellite dish
Power Supply
14-18V DCAnalog satellite finder
(modified)
LNB
Computer + data logging software
Data acquisition board
• Detect microwaves emitted by the Sun and approximate the temperature at 11GHz (chromosphere)
• Detect microwaves emitted by the human body or any other object of sufficiently high temperature.
First test - 2006
Meridian transit of the Sun at 11GHz (Ku band)
Suceava Panetarium 2009
Panaci 2009
The Internet Solar Radio Observatory Imai Laboratory, Kochi National College of Technology, Japan
http://sun.kochi-ct.jp/e/observatory.html
Links
• MIT Very Small Radio Telescope (VSRT) http://www.haystack.mit.edu/edu/undergrad/VSRT/index.html
• Radio Astronomy on 11 GHz at ISUhttp://astro.u-strasbg.fr/~koppen/10GHz/index.html
• The Internet Solar Radio Observatory http://sun.kochi-ct.jp/e/observatory.html