### Session K10: Test of Physics Laws and Precision Experiments

1:15 PM–3:15 PM, Sunday, April 15, 2007
Hyatt Regency Jacksonville Riverfront Room: City Terrace 6

Chair: Zheng-Tian Lu , Argonne National Laboratory

Abstract ID: BAPS.2007.APR.K10.6

### Abstract: K10.00006 : Accelerator Mass Spectrometry Search for Strangelets in Lunar Soil

2:15 PM–2:27 PM

Preview Abstract MathJax On | Off   Abstract

#### Authors:

Ke Han
(Yale University)

Alexei Chikanian
(Yale University)

Evan Finch
(Yale University)

Richard Majka
Jack Sandweiss
(Yale University)

Jeffrey Ashenfelter
(Yale University)

Andreas Heinz
(Yale University)

Peter Parker
(Yale University)

Peter Fisher
(M. I. T.)

Benjamin Monreal
(M. I. T.)

The theoretical existence of Strange Quark Matter (SQM) with similar amounts of up, down and strange quarks in one single hadronic bag has been postulated for over two decades. A wide range of experimental searches for strangelets (small lumps of SQM with baryon number less than $10^6$) have been conducted. However, none of these experiments, including terrestrial searches, accelerator searches, and the Alpha Magnetic Spectrometer 01 experiment (AMS-01) could give a definite answer to their existence. Our experiment searches for strangelets in lunar soil. Cosmic ray flux deposits strangelets on the Moon with a predicted concentration (one strange oxygen per $10^{16}$ to $10^{17}$ normal oxygen atoms) of $10^5$ times higher than that on Earth. The lunar soil sample is analyzed using accelerator mass spectrometry through the tandem Van-de-Graaff accelerator at Yale University. The accelerator together with our own designed detection system enables us to identify strangelets at a level of less than 1 per $10^{17}$ atoms.