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H M Ozaktas

Showing results (1-10 of 21) with videos related to

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Applied Optics|August 10, 1997
Toward an optimal foundation architecture for optoelectronic computing. Part II. Physical construction and application platformsH M Ozaktas
Applied Optics|August 10, 1997
Toward an optimal foundation architecture for optoelectronic computing. Part I. Regularly interconnected device planesH M Ozaktas
Applied Optics|September 22, 2010
Optical-coordinate transformation methods and optical-interconnection architecturesD Mendlovic, H M Ozaktas
Optics Letters|October 27, 2009
Fractional Fourier transform as a tool for analyzing beam propagation and spherical mirror resonatorsH M Ozaktas, D Mendlovic
Optics Letters|October 6, 2009
Multistage optical interconnection architectures with the least possible growth of system sizeH M Ozaktas, D Mendlovic
Applied Optics|November 25, 2010
Every Fourier optical system is equivalent to consecutive fractional-Fourier-domain filteringH M Ozaktas, D Mendlovic
Applied Optics|August 25, 2010
Implications of interconnection theory for optical digital computingH M Ozaktas, J W Goodman
Applied Optics|November 19, 2010
Digital Fourier opticsH M Ozaktas, D A Miller
Applied Optics|March 8, 2008
Comparison of fully three-dimensional optical, normally conducting, and superconducting interconnectionsH M Ozaktas, M F Erden
Applied Optics|October 2, 2010
Elements of a hybrid interconnection theoryH M Ozaktas, J W Goodman
Pageof 3

Showing results (1-10 of 21) with videos related to

Sort By:
Pageof 3
Applied Optics|August 10, 1997
Toward an optimal foundation architecture for optoelectronic computing. Part II. Physical construction and application platformsH M Ozaktas
Applied Optics|August 10, 1997
Toward an optimal foundation architecture for optoelectronic computing. Part I. Regularly interconnected device planesH M Ozaktas
Applied Optics|September 22, 2010
Optical-coordinate transformation methods and optical-interconnection architecturesD Mendlovic, H M Ozaktas
Optics Letters|October 27, 2009
Fractional Fourier transform as a tool for analyzing beam propagation and spherical mirror resonatorsH M Ozaktas, D Mendlovic
Optics Letters|October 6, 2009
Multistage optical interconnection architectures with the least possible growth of system sizeH M Ozaktas, D Mendlovic
Applied Optics|November 25, 2010
Every Fourier optical system is equivalent to consecutive fractional-Fourier-domain filteringH M Ozaktas, D Mendlovic
Applied Optics|August 25, 2010
Implications of interconnection theory for optical digital computingH M Ozaktas, J W Goodman
Applied Optics|November 19, 2010
Digital Fourier opticsH M Ozaktas, D A Miller
Applied Optics|March 8, 2008
Comparison of fully three-dimensional optical, normally conducting, and superconducting interconnectionsH M Ozaktas, M F Erden
Applied Optics|October 2, 2010
Elements of a hybrid interconnection theoryH M Ozaktas, J W Goodman
Pageof 3