Seunghyun Kim

7492988, Feb 17, 2009

Dec 4, 2007

11/950310

Gregory P. Nordin - Lindon UT, US
Yongbin Lin - Huntsville AL, US
Seunghyun Kim - Cedar Hills UT, US

G02B 6/26
G02B 6/42
G02B 6/10
G02B 6/12

385 31, 385 14, 385 41, 385129, 257 10, 257 11, 257 21, 257 53, 257 54, 257 55, 257 56, 257 72, 257113, 257114, 257115, 257116, 257117, 257118, 257499

Planar AWG circuits and systems are disclosed that use air trench bends to increase planar circuit compactness.

7876986, Jan 25, 2011

Jan 9, 2009

12/351468

Yongbin Lin - Huntsville AL, US
Gregory P. Nordin - Lindon UT, US
Seunghyun Kim - Cedar Hills UT, US

G02B 6/34
G02B 6/26

385 37, 385 31

Planar AWG circuits and systems are disclosed that use air trench bends and shared MMI slabs to increase planar circuit compactness.

6804446, Oct 12, 2004

Nov 18, 2003

10/715966

Gregory P. Nordin - Huntsville AL
Seunghyun Kim - Huntsville AL
Jingbo Cai - Huntsville AL
Jianhua Jiang - Madison AL

University of Alabama in Huntsville - Huntsville AL

G02B 610

385132, 385129, 385125

A waveguide assembly is provided that includes a waveguide region and at least one photonic crystal (PhC) region. The waveguide region includes a longitudinally extending core that has an input channel and at least one output channel, and a cladding at least partially surrounding the core for confining signals within the core. The PhC region(s), in turn, extend laterally through at least a portion of the core to at least partially direct signals propagating through the core. The PhC region(s) can extend through at least a portion of the core to thereby form, for example, a bend, beamsplitter, polarizing beamsplitter, Mach-Zender interferometer or ring resonator for signals propagating through the core.

20140224789, Aug 14, 2014

Feb 15, 2013

13/768052

- Longview TX, US
Seunghyun Kim - Longview TX, US
Allen Worcester - Longview TX, US
Ithamar Glumac - League City TX, US

LeTourneau University - Longview TX

H05B 6/80

219690

The present disclosure provides a method for joining two materials, and a system for accomplishing the same. The method for joining two materials, in this aspect, includes placing an article including two dissimilar materials within a waveguide structure, the article located between a microwave source and reflective surface of the waveguide structure. The method for joining the two materials, in this aspect, further includes subjecting the article to microwaves from the microwave source while changing a relative position of the article with respect to the reflective surface to dynamically change a microwave field distribution within the waveguide and join the two dissimilar materials.