ME 598

Fall 2024 All Classes

All Classes

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Credit: 1 TO 4 hours.

Subject offerings of new and developing areas of knowledge in mechanical engineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites.

May be repeated in the same or separate terms if topics vary.

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ME 598 class schedule data for fall 2024
CRN	Type	Section	Time	Day	Location	Instructor	Section Details
40066	Lecture-Discussion	EC1	3:00PM -4:50PM	MW	Engineering Hall	Zhang, L	Part of Term: 1 Date Range: 08/26/24-12/11/24 Credit: 4 hours Section Title: Electronics Cooling Section Info: Introduction to microelectronics packaging from chip to system levels and the challenging thermal issues. Introducing concepts such as junction temperature, heat flux density and Moore’s Law. Fundamentals of various heat transfer modes and fluid mechanics with applications to microelectronics cooling systems. Restriction(s): Restricted to Graduate - Urbana-Champaign.
77751	Online	ECC	ARRANGED	n.a.	n.a.	Zhang, L	Part of Term: 1 Date Range: 08/26/24-12/11/24 Credit: 4 hours Section Title: Electronics Cooling Section Info: Section reserved for students designated as On Campus Introduction to microelectronics packaging from chip to system levels and the challenging thermal issues. Introducing concepts such as junction temperature, heat flux density and Moore’s Law. Fundamentals of various heat transfer modes and fluid mechanics with applications to microelectronics cooling systems. Restriction(s): Restricted to MS:Computer Science -UIUC, PHD:Computer Science -UIUC, MS:Electrical Engineerng -UIUC, MS:Industrial Engineerng -UIUC, PHD:Industrial Enginerng -UIUC, MS:Mechanical Engineerng -UIUC, PHD:Mechanical Enginerng -UIUC, MENG:Mechanical Enginerng-UIUC, or MENG:Elec & Computer Eng-UIUC.
32264	Online	ECO	ARRANGED	n.a.	n.a.	Zhang, L	Part of Term: 1 Date Range: 08/26/24-12/11/24 Credit: 4 hours Section Title: Electronics Cooling Section Info: Section reserved for Online students Introduction to microelectronics packaging from chip to system levels and the challenging thermal issues. Introducing concepts such as junction temperature, heat flux density and Moore’s Law. Fundamentals of various heat transfer modes and fluid mechanics with applications to microelectronics cooling systems. Restriction(s): Restricted to MS:Industrial Engr Online-UIUC, MS:Mechanical Engineerng -UIUC, MENG:Mech Engineering Onl-UIUC, or MENG:Elec & Comp Eng ONL -UIUC.
69749	Lecture-Discussion	GB1	10:30AM -11:50AM	TR	Sidney Lu Mech Engr Bldg	Bahl, G	Part of Term: 1 Date Range: 08/26/24-12/11/24 Credit: 4 hours Section Title: Emergent Phenomena w/photons Section Info: Students will learn about the emergence of non-trivial phenomena from excitations in multi-physical systems (combining optics/EM, mechanics, electronic effects). The course will help develop the tools of coupled mode theory, eigenvalue/eigenstate analysis, with a Hamiltonian-based formalism. We will have broad discussion on harmonic oscillators, the emergence of band structure, solutions in periodic media, metamaterials, and topological properties. The course will also cover a variety of topics in nonlinear optics and opto-mechanics. The goal will be to help engineering-focused students learn how to appreciate and interpret research on emergent phenomena and quantum technologies, and physics-focused students learn how to link concepts from AMO/condensed matter physics to engineering applications. The course will be project focused. Prerequisite knowledge of fourier transforms and analysis and linear algebra. Prior exposure to electromagnetics and optics is recommended. Prerequisite courses: ME360;ECE210;ECE310;MATH257 or equivalent Restriction(s): Restricted to students with Graduate class standing. Restricted to MS:Electrical Engineerng -UIUC, MS:Electrical Engineerng -UIUC, MS:Electrical Engineerng -UIUC, PHD:Electrical Engineerg -UIUC, MS:Materials Sci & Engr -UIUC, PHD:Materials Sci & Engr -UIUC, MS:Mechanical Engineerng -UIUC, PHD:Mechanical Enginerng -UIUC, MS:Physics -UIUC, PHD:Physics -UIUC, MS:Theor&Appl Mechanics -UIUC, MS:Theor&Appl Mechanics -UIUC, PHD:Theor&Appl Mechanics -UIUC, MS:Electr & Computer Eng-UIUC, PHD:Electr & Computer Eng-UIUC, or MENG:Elec & Computer Eng-UIUC.
32262	Lecture-Discussion	JWM	ARRANGED	n.a.	Location Pending	Maduzia, J	Part of Term: 1 Date Range: 08/26/24-12/11/24 Credit: 4 hours Section Title: MicroNano Fabrication Capstone Section Info: This course is a hands-on micro-nano fabrication course. The student will be assigned a process topic including but not limited to spinning, exposure, PVD, RIE or ICP DRIE etching. Through in-lab training, the student will fabricate patterned test samples with micron scale resolution, then run a parameter study on the process. The student will then characterize the samples (SEM, profilometery, etc), analyze the results, and present the results for review. A report of the work accomplished, process used, and results will be provided for review. Students enrolled in this course will have a unique opportunity to fabricate and characterize micro-nano samples using modern techniques and equipment. Pre-requisites: Previously taken or concurrently enrolled in ME487 OR ME 586 OR ME 588 OR ECE444. Restriction(s): Restricted to Graduate - Urbana-Champaign. Restricted to MENG:Mechanical Enginerng-UIUC.