Exotic in dense and cold nuclear matter

K. Mikhailov (1); A. Stavinskiy (1); G. Sharkov (1); V. Stolin (1); ((1) Institute for Theoretical; Experimental Physics)

arXiv:1305.3147·hep-ex·June 15, 2015

Exotic in dense and cold nuclear matter

K. Mikhailov (1), A. Stavinskiy (1), G. Sharkov (1), V. Stolin (1), ((1) Institute for Theoretical, Experimental Physics)

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TL;DR

This paper proposes a method to create and study dense, cold nuclear matter droplets in the laboratory, discussing their feasibility, cooling mechanisms, and trigger strategies for detecting exotic states.

Contribution

It introduces a novel approach for laboratory creation and investigation of dense cold nuclear matter droplets, including cooling mechanisms and trigger criteria.

Findings

01

Feasibility of creating dense cold nuclear matter droplets.

02

Mechanism of kinematical cooling clarified.

03

Proposed trigger strategies for detecting exotic states.

Abstract

The way to create and to investigate a dense cold matter droplets in the laboratory is proposed. The reality of this approach are argued. Estimated possible statistic is large enough for detail study of the properties of such a matter. Mechanism of kinematical cooling of the droplet is clarified. Different types of trigger(selection criteria) are proposed to search for different kind of exotic.

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