Onn--Axis Potentials for Positron-Loading Electrodes

Jenne Driggers ATRAP Collaboration Dr. Gerald Gabrielse Dr. Jonathan Wrubel ATRAP: An TRAP z Co lla bora tion o f severa l un ivers ities, le d by Dr. Gabrielse of Harvard. z is the antimatter analogy of hydrogen: a positron orbiting around an . z Our group and our competitors have made antihydrogen, but no one has been able to trap it. z The goal is to make and trap cold (not moving) antihydrogen, so that we can study its properties, and how it is similar and dissimilar to hydrogen. z Motivations and methods for this will be discussed by Eric shortly. How Do You Trap Antimatter? z for charged particles. z Ioffe trap to capture neutral particles. z Current experiment: only a Penning trap. z Experiment to be installed next week: Nested P ennin g an d I off e tr aps. z Big challenge: keeping track of magnetic fields w ith the nested trap. My Current Project z Positrons are not emitted near our experiment, we must get them there . z Use electrodes, similar to a Penning trap, to ‘scoot’ positrons along. z Weeo know wh apoeasat potentials Positron source we put on the electrodes, Electrode stack but the positrons see the potential at the center of the electrode. Experiment / Trap LabVIEW Program ••NeedNeed to efficiently bbltlltbe able to calculate the potential at the center of the electrode ‘stack’. ••CC code isn’t working properly, so the LabVIEW program I wrote is giving nonnon-- physical outputs. ••DependingDepending on depth of problem , I may have to learn C to debug the program. In the Mean Time

z 32--ppittin connector to measure temperature at various spots in the experiment. z Constantin 3mil wire. z Bundles of 2 twisted pair in Teflon tubing. z 3232--pinpin connector → heat sink → temperature sensors Thank You z NSF Jenne Kimmy z Chamonix and Dr. Gerald Gabrielse Mont Blanc z Dr. Jonathan Wrubel z ATRAP Collaboration z Dr. Jean Krisch z Jeremy Herr Eric Pat Danielle Jordan z Other Summer Ian Students!

On the hike in Interlaken