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conferenceseries

.com

Joint Conference

July 17-18, 2017 Chicago, USA

International Conference on

DIAMOND AND CARBON MATERIALS & GRAPHENE AND SEMICONDUCTORS

Volume 6, Issue 6 (Suppl)

J Material Sci Eng, an open access journal

ISSN: 2169-0022

Diamond and Carbon 2017 & Graphene 2017

July 17-18, 2017

Graphene on Diamond (GOD)

James C Sung

Synthetic Element Six (SES), USA

G

raphene is the stretched diamond (111) plane graphene can be formed martensitic alloy without breaking the carbon

bonds, on diamond surface by specialty heat treatment in vacuum. In this case graphene on diamond (GOD) hetero-

epitaxy is similar to homo-epitaxy so the signal transmission is continuous. GOD is an ideal computational device as graphene

contains the most effective transmission lattice, capable of terahertz communication by Mach 100 speed of phonon (lattice

vibration). On the other hand, diamond is considered to be the most stable quantum computing solid due to its highest Debye

temperature. During the quantum computing, the Q-bits must be entangled without atomic vibration, and diamond’s super

hard lattice is capable to maintain this stability for milliseconds, even at room temperature. Diamond contains about 1% C13

isotope atoms in the lattice. These atoms may be ion planted and heat treated to cluster as Q-bits. The superposition of spins

from the extra neutron in the nuclei would be the best mechanism for quantum computing. With about 50 Q-bits entangled in

milliseconds while these Q-bits are stationary, the vast computational possibilities can tackle even more difficult problems that

for all human transistors combined. With GOD, the quantum computing can be initiated with graphene on cubical face (100)

of diamond; and the collapsed quantum waves may exit from octahedral face (111). Thus, GOD would be the dream AI chip

that outperforms even the smartest combinations of all current computers interconnected together.

Biography

James C Sung was responsible for diamond production technology at GE Super Abrasives, for diamond tools development at Norton. He has set the diamond

grid specifications for diamond disks used worldwide for CMP of IC wafers, and helped IPO of Kink Company in Taiwan. He co-founded graphene synthetic with

Huang-He worldwide, the world's largest diamond maker located in Henan China. He is currently, the Chairman of Synthetic Element Six (SES), selling the most

advanced CMP diamond disks-V the manufacture of next generation interconnects.

jamessungad@gmail.com

James C Sung, J Material Sci Eng 2017, 6:6(Suppl)

DOI: 10.4172/2169-0022-C1-076