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The project that I am working on with Dr. Jones and his UConn lab group is the mechanical design of the Tagger microscope box. The Tagger microscope is a critical part of the GlueX particle accelerator experiment being constructed and run at Thomas Jefferson National Accelerator Facility in Virginia. The GlueX project is overseen (and largely-funded) by the United States Department of Energy, but is executed by an international collaboration of physicists which includes students and faculty members from universities in the US, Canada, Chile, the United Kingdom, Greece, Armenia, and China.  

The project that I am working on with Dr. Jones and his UConn lab group is the mechanical design of the Tagger microscope box. The Tagger microscope is a critical part of the GlueX particle accelerator experiment being constructed and run at Thomas Jefferson National Accelerator Facility in Virginia. The GlueX project is overseen (and largely-funded) by the United States Department of Energy, but is executed by an international collaboration of physicists which includes students and faculty members from universities in the US, Canada, Chile, the United Kingdom, Greece, Armenia, and China.  

During the fall 2008 semester, a huge development in the project is the finalization of a design for the “skeleton” framework that will both support and contain the electronic, optical, and mechanical components of the microscope. To do this, TurboCad drafting software was used to create ANSI-standardized renderings of the different pieces that will ultimately come together to form the skeleton. The idea for a skeleton framework for the actual microscope box was decided on as a way to conserve weight in the final design. The final design must also be light-sealed and durable, and the contents of the box must be easily accessible for routine maintenance. All of these specific considerations were taken into account when designing the tagger microscope's skeleton (and complete box), and all of the details of this work are described below.  

During the fall 2008 semester, a huge development in the project is the finalization of a design for the “skeleton” framework that will both support and contain the electronic, optical, and mechanical components of the microscope. To do this, TurboCad drafting software was used to create ANSI-standardized renderings of the different pieces that will ultimately come together to form the skeleton. The idea for a skeleton framework for the actual microscope box was decided on as a way to conserve weight in the final design. The final design must also be light-sealed and durable, and the contents of the box must be easily accessible for routine maintenance. All of these specific considerations were taken into account when designing the tagger microscope's skeleton (and complete box), and all of the details of this work are described below.