1 September 19, 2013 The Fields and Optics Area Dimitrios Peroulis Professor Electrical and Computer Engineering, Birck Nanotechnology Center Center for.

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Presentation transcript:

1 September 19, 2013 The Fields and Optics Area Dimitrios Peroulis Professor Electrical and Computer Engineering, Birck Nanotechnology Center Center for Electronics Defense Systems, Director Purdue University Tel:

2 Voyager: The Beginning Voyager 1 launches from the Kennedy Space Center on Sept. 5, The Voyager spacecraft have been on an extensive mission of discovery that has lasted some 36 years.

3 Voyager: Communication with the Earth 34-Meter Beam Waveguide (BWG) Antennas34-Meter High-Efficiency (HEF) Antenna Voyager 1 is currently about 12 billion miles away from us. It takes over 17 hours for its signal to reach the earth. Its antenna is 3.7 meters in diameter. “Seeing” its antenna is like seeing a human cell on the moon!

4 Voyager and Cell Phone VoyagerCell Phone Designed1970s2010s Minimum power< 1aW< 100 fW Receiver temp.<10K120F Receiver antenna100 ft.<2 in Receiver locationUltra quietMiddle of city Cost$360MNearly free Built2>3,000,000/day

5 Generate, Control, and Direct Waves

6 Frequency Spectrum (1): RF/Wireless

7 Frequency Spectrum (2): Optics

8 FO Professors Alphabetically 1.Peter Bermel 2.Alexandra Boltasseva 3.William Chappell (on leave) 4.Chin Lin Chen (retired) 5.Supriyo Data 6.Daniel Elliott 7.Okan Ersoy 8.Eric Furgason 9.David Janes 10.Dan Jiao 11.Byunghoo Jung Electromagnetics, Radio ElectronicsOptics Affiliated with FO 11.Gerhard Klimech 12.Evgenii Narimanov 13.John Neynhuis 14.Dimitrios Peroulis 15.Minghao Qi 16.Vladimir Shalaev 17.Kevin Webb 18.Andrew Weiner 19.Xianfan Xun

9 Purdue: Leader for > 130 years in FO : Reginald Fessenden Becomes Purdue Head of Electrical Engineering 1892: Reginald Fessenden Helps Light The Chicago World’s Fair using AC 1906: Reginald Fessenden broadcasts first audio radio broadcast 1927: First Police Radio by Purdue Sophomore: Robert Batts 1952: Edward Purcell Wins Nobel Prize for Nuclear Magnetic Meas. using microwave signals. 1940’s : Edward Purcell Leads Development Group for Radar at MIT Rad Lab 1933’s: Edward Purcell gets EE degree at Purdue 1931: Purdue Creates First Electronic Television Receiver 2000

10 Purdue Courses Undergraduate ECE 311: Electric and Magnetic Fields ECE 307: Electromagnetic Fields and Waves Laboratory ECE 412: Introduction to Engineering Optics ECE 415: Electro- And Fiber Optics Laboratory ECE 441: Distributed Parameter Systems

11 Purdue Courses Graduate ECE 513: Diffraction, Fourier Optics and Imaging ECE 552: Introduction to Lasers ECE 604: Electromagnetic Field Theory ECE 614: Integrated & Fiber Optics ECE 615: Nonlinear Optics ECE 616: Ultrafast Optics ECE 617: Antennas: Design and Applications ECE 618: Numerical Electromagnetics ECE 678: Radar Engineering ECE 595C: RF and Microwave Wireless Components ECE 595R: RF MEMS for Intelligent Communication Systems ECE 695: Advanced Electromagnetic Theory

12 Employment Opportunities (just examples) Commercial Many start-ups and many others Defense Research Labs

13 Thank you!