Holographic Imaging

Light from a laser-illuminated coffee cup interferes with a holographic image of itself in the laboratory, producing a series of coarse interference fringes.

Light from a laser-illuminated coffee cup interferes with a holographic image of itself in the laboratory, producing a series of coarse interference fringes. (Photo by Prof. Michael Halle.)

Instructor(s)

MIT Course Number

MAS.450

As Taught In

Spring 2003

Level

Undergraduate

Translated Versions

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Course Description

Course Features

Course Description

MAS.450 is a laboratory course about holography and holographic imaging.

This course teaches holography from a scientific and analytical point of view, moving from interference and diffraction to imaging of single points to the display of three-dimensional images. Using a "hands-on" approach, students explore the underlying physical phenomena that make holograms work, as well as designing laboratory setups to make their own images. The course also teaches mathematical techniques that allow the behavior of holography to be understood, predicted, and harnessed.

Holography today brings together the fields of optics, chemistry, computer science, electrical engineering, visualization, three-dimensional display, and human perception in a unique and comprehensive way. As such, MAS.450 offers interesting and useful exposure to a wide range of principles and ideas. As a course satisfying the Institute Laboratory Requirement, MAS.450 teaches about science, scientific research, and the scientific method through observation and exploration, hinting at the excitement that inventors feel before they put their final equations to paper.

Related Content

Michael Halle, and Stephen Benton. MAS.450 Holographic Imaging. Spring 2003. Massachusetts Institute of Technology: MIT OpenCourseWare, https://ocw.mit.edu. License: Creative Commons BY-NC-SA.


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