Due to the current COVID-19 pandemic, we are uncertain at this time if the summer school can be hosted at Nevis Labs. The summer school at Tours has been cancelled this year. Please watch this space for information about next year's event. We hope that you can join us in 2021.
This year, a Summer Colloquium Series will be held remotely via Zoom.
About the Program
This program brings together students from the United States and students from the Lycée Descartes in Tours, France to exchange scientific ideas, set up potential scientific collaborations, and engage in cultural immersion. The goal of this program is to introduce students to astroparticle physics and gamma-ray astronomy at very high energies using ground-based telescopes. The school is aimed at first and second-year undergraduates and advanced high school students with a passion in science.
In this program, students will design a cloud chamber (using the Peltier effect) and attend talks about particle astrophysics during a week long stay in Tours, France or New York City. Topics discussed will be cosmic rays, dark matter, compact objects, gravitational waves, binary systems, and gamma-ray astronomy. Visiting students will tour laboratories, as well as explore the local area's history in science and astrophysics.
A cloud chamber is an early form of particle detector developed by C.T.R. Wilson in the early 1900's. Charged particles interact with the vapor in the chamber and create a trail of ionized particles. These ions then form a thin line of droplets which display a track of the particle's path. These different tracks change depending on the type of particle.
Cloud chambers played an important role in experimental particle physics from the 1920s to the 1950s, until the emergence of the bubble chamber. In particular, the discoveries of the positron in 1932 and the muon in 1936, both by Carl Anderson (awarded a Nobel Prize in Physics in 1936), used cloud chambers.
Here is a nice review of the contributions of the cloud chamber to physics: "A Report on the Wilson Cloud Chamber and its Applications in Physics". Reviews of Modern Physics. (1946).
Muons are stopped in a large block of scintillator, where they subsequently decay into an electron (or positron) and two neutrinos. A short light pulse is produced by the stopping muon, and a subsequent short light pulse is produced by the electron (or positron), both of which are detected and amplified by a photomultiplier tube. By measuring the relative delay between these two light pulses from many muons, we can measure their lifetime.
Particle Astro Research
Members of the particle astrophysics group at Barnard College and Columbia University are involved in the development of a prototype Schwarzchild-Couder telescope (SCT) under construction at the Fred Lawerence Whipple Observatory, Arizona. Find a press release on the SCT inauguration here
The development of the prototype SCT has been made possible by funding provided through the NSF-MRI program. The pSCT Collaboration consists of members from several institutions. Find a complete list of institutions here
Astroparticle Physics Summer School 2019 website here
Image Carousel with 6 slides
A carousel is a rotating set of images. Use the previous and next buttons to change the displayed slide
Slide 1: Students testing cloud chamber
Slide 2: Students testing cloud chamber for water leaks
Slide 3: Muon lifetime experiment set-up
Slide 4: APSS group outside of Pupin Labs at Columbia University
Slide 5: Tours students working on cloud chamber
Slide 6: Cloud chamber set up with Peltier cooling