Add to ORKGI will be presenting a talk on the results of the DRIFT IIe Project for this summer. To begin I will give an introduction on Ohm\u27s Law and Charge Division as a main part of the whole dark matter detector that we were building. It is the way that we determine when and where the dark matter is supposed to have interacted with our detector. Then I will talk about the wire resistances that we measured from the detectors that we built and the analysis of those wires. I will then talk about why these results were good or bad (depending) and conclude from there
The Belle II experiment features a substantial upgrade of the Belle detector and will operate at the...
The LHC will explore physics at the energy frontier and will address many open questions in particle...
The nature of dark matter, which comprises 85% of the matter density in the universe, is a major out...
This talk will summarize the methods of testing and quality control that DRIFT IIe dark matter detec...
After learning how to use the DipTrace circuit board design program, I was able to assist with three...
DRIFT (Directional Recoil Identification From Tracks) is a dark matter collaboration that uses Multi...
Dark Matter is one of the greatest mysteries in Physics today. DRIFT - a dark matter detector design...
We present recent progress from the DRIFT (Directional Recoil Identification From Tracks) collaborat...
The biggest question in astrophysics and cosmology today is identifying the composition of the Unive...
One of the greatest mysteries in physics today is the question of the existence and nature of the so...
In the MEG II detector, the measurement of the momentum of the charged particle is performed by a hi...
It is believed that about 90 to 99% of the mass of the universe is composed of a non-baryonic, non-l...
This summer I worked on measuring the drift velocity and dispersion of ions in a miniature version o...
AbstractThe DRIFT-IId dark matter detector is a m3-scale low-pressure TPC with directional sensitivi...
Finding dark matter is a major goal in contemporary physics today. DRIFT II-b (Directional Recoil Id...
The Belle II experiment features a substantial upgrade of the Belle detector and will operate at the...
The LHC will explore physics at the energy frontier and will address many open questions in particle...
The nature of dark matter, which comprises 85% of the matter density in the universe, is a major out...
This talk will summarize the methods of testing and quality control that DRIFT IIe dark matter detec...
After learning how to use the DipTrace circuit board design program, I was able to assist with three...
DRIFT (Directional Recoil Identification From Tracks) is a dark matter collaboration that uses Multi...
Dark Matter is one of the greatest mysteries in Physics today. DRIFT - a dark matter detector design...
We present recent progress from the DRIFT (Directional Recoil Identification From Tracks) collaborat...
The biggest question in astrophysics and cosmology today is identifying the composition of the Unive...
One of the greatest mysteries in physics today is the question of the existence and nature of the so...
In the MEG II detector, the measurement of the momentum of the charged particle is performed by a hi...
It is believed that about 90 to 99% of the mass of the universe is composed of a non-baryonic, non-l...
This summer I worked on measuring the drift velocity and dispersion of ions in a miniature version o...
AbstractThe DRIFT-IId dark matter detector is a m3-scale low-pressure TPC with directional sensitivi...
Finding dark matter is a major goal in contemporary physics today. DRIFT II-b (Directional Recoil Id...
The Belle II experiment features a substantial upgrade of the Belle detector and will operate at the...
The LHC will explore physics at the energy frontier and will address many open questions in particle...
The nature of dark matter, which comprises 85% of the matter density in the universe, is a major out...