Microsystems Integration Intern

Engineering Student internships support the research and development of new or existing microsystems and advanced materials (hardware, software, components, and materials/chemistry research and modeling) or may assist in sustaining and improving the quality processes across the full engineering and manufacturing life cycle. Student interns will contribute to projects in various engineering disciplines such as computer hardware or software design and development, electro-optical design, optical and thermal model development, bioengineering, materials testing, chemistry, electrical system design, hardware assembly, testing, etc. Student interns will test and evaluate products, systems, or components and work with various applications such as LabVIEW, MATLAB, SolidWorks, COMSOL, ANSYS, Mentor Graphics, Python, and GitLab. Student interns collaborate with engineers or technicians to build and test systems, hardware, or components on various projects. They may also be involved in ensuring quality products are produced and quality procedures are upheld.

Job Description:

Duties/Responsibilities

Design, develop, and enhancement engineering solutions for challenging problems. 

Implement, test, perform analysis, and provide documentation support.

Generate and present test reports including plots, tables, evaluation criteria, and conclusions from data collected and analyzed throughout the test process.

Complete assignments designed to develop a practical knowledge of processes, procedures, equipment, facilities, and systems as well as their interrelationships within engineering disciplines.

Performs other duties as assigned.

Program Requirements

Enrolled in an accredited full-time undergraduate or graduate degree program required.

There is flexibility regarding hours and program duration based on applicant’s school schedule and availability.

Skills/Abilities

Excellent written and oral communication skills.

Excellent work ethic with the ability to work independently or in a team environment.

Ability to adapt to ever-changing environments, risks, and vulnerabilities.

Strong computer skills including MS Word, PowerPoint and Excel.

Additional Job Description:

Responsibilities

The student will be a part of a team that designs, models, and tests complex multi-physics devices, microsystems, and materials and systems. An example research area would be radiation effects in semiconductor electronics. The multi-disciplinary engineering teams will develop and verify the performance of such systems with a broad understanding of the relevant physics. In addition, the candidate should have an interest in a wide variety of other areas such as MEMS sensors, space systems and electro-optics. 

Qualifications

The ideal candidate will be seeking a degree in electrical engineering, nuclear engineering, physics, materials science, chemistry, or a related field. The desired candidate has many, but not necessarily all, of the skills listed below:  

• Interest in designing, modeling and testing electronic devices
• Experience using one or more computational tools such as SPICE, Comsol, TCAD,  Matlab, MCNP or similar to model complex physical phenomena.
• Experience with nuclear engineering and related modeling  
• Interest in developing a broad array of novel multi-physics devices and systems

This position and/or the facilities in which its duties will be performed are subject to national security programs imposed and administered under U.S. statutes. Therefore, pursuant to 42 U.S.C. § 2000e-2(g), this position is restricted to U.S. Citizens, and applicants with dual citizenship may not be considered.