overview of suny research enterprise and quantum research ... · $1.6 bn. annual r&d...
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Overview of SUNY Research Enterprise and Quantum Research Capacity
Grace WangSenior Vice Chancellor for Research and Economic Development
SUNY
64 Campuses
424 K Degree Seeking Students
$13 BnAnnual Operating Budget
SUNY Research Enterprise
7,100 Projects
2,700 Principal Investigators
$1.6 Bn Annual R&D Expenditure (FY 2017)
SUNY Innovation Activities
1,522 Issued Patents
717 Active License Agreements
18 Incubators
110 Active Startups
Ranks #30 among worldwide universities for U.S. granted utility patents in 2018
SUNY Economic Impact
30,600Students
$401 MAnnual R&D(FY 2017)
26,000Students
$238 MAnnual R&D(FY 2017)
17,700Students
$156 MAnnual R&D(FY 2017)
17,300Students
$98 MAnnual R&D(FY 2017)
3,000Students
$309 MAnnual R&D(FY 2017)
SUNY Medical Schools and Hospitals
3 Hospitals
$2.8 Bn Annual Revenue
4 Medical Schools
9 M Unique Patient Records
Quantum Materials, Devices
and Packaging
Quantum Information
Science
SUNY Quantum Research and Education Capacity
Quantum Enabled
Research Frontiers
ACC
ELER
ATIN
G 6
.1 to
6.3
+
Quantum Sensing Quantum Communication Quantum Computing
Quantum-Smart Workforce
Quantum Materials, Devices and Packaging
Superconducting Materials
Growth, characterization applications (e.g. Josephson Junctions) of superconducting films (such as YBa2Cu3O7, NbN, MoN, and TiC).
Refs: Appl. Phys. Lett. 66, 3674 (1995).Appl. Phys. Lett. 72, 3068 (1998).Chem. Commun. 45, 6022 (2008).J. Am. Chem. Soc. 132, 2516 (2010)
J. Am. Chem. Soc. 133, 20735 (2011).
Quanxi Jia et.al. (Currently at University at Buffalo)
Quantum Qubit Fabrication & Measurement
Wafer-scale, high-quality qubit fabrication in SUNY Poly 300mm facility
Collaboration with AFRL and NIST
300mm wafer with patterns for superconducting qubitsfabricated at SUNY Poly
Qubit transmon measurement from devices fabricated on 300mm wafers
using 193 nm lithography
Cavity resonant freq.
Freq. shift due to qubit-cavity
interaction
Papa Rao et.al., SUNY Polytechnic Institute
Heterogeneous Integration Research in Packaging Center (CHIRP)
Thermal ManagementHolistic Scaleout Designs Within Heterogeneous Packages Power Delivery and Power Management Systems Minimizing Thermal Interfacial ResistanceAlternative Fine Pitch Interconnect Technologies
Center for Heterogeneous Integration Research in Packaging (CHIRP)
Bahgat Sammakia (Center co-Director), Binghamton UniversityIn collaboration with Purdue University
Computational and Experimental Tools for Next-gen NanoelectronicsPackaging
Electromigration and Thermomigration Reliability
All Graphene Nano Ribbon TFET Switch
Molecular Dynamics
Nonlinear FEA
Cemal Basaran (Center Director), University at Buffalo
Orlov et. al., Stony Brook University
Quantum Information Science
Carlo Cafaro, SUNY Polytechnic Institute
Paul Alsing, Air Force Research Laboratory (AFRL)
Quantum InformationTechnology Laboratory
SUNY Quantum Information Science Center Long IslandD. Averin T. C. Wei
V. KorepinD. Schneble
D. KharzeevE. Figueroa
Xu Du
In collaboration with BNL, ORNL, Stockholm, and Padova.
NYC-SBU-BNL Distrubuted Quantum Computing Network
Possible NY partners: AIM Photonics, AFRL.
Quantum Computing Enabled New Research Frontiers
Informatics Driven Discovery of Quantum Materials
References: MRS Bulletin 43; (Sept.2018): Data centric science for materials innovation; I Tanaka, K.Rajan & C. Wolverton ; Molecular Systems Design & Eng. (Sept. 2018): Correlative analysis of MOF structures through manifold learning of Hirshfeld surfaces: X.Shen et.al
Krishna Rajan et.al., University at Buffalo
Hafnium nitride (HfN10) structure. Credit: MIPT
Artem R. Oganov et. al., Stony Brook University
Predicting New High-Energy Compounds
Faulty Genomic Pathway Linked to Schizophrenia
“… could lead to treatments for pregnant mothers at risk for bearing children with the disease.”-- NSF
Michal K. Stachowiak, et. al., University at Buffalo
Quantum Materials, Devices
and Packaging
Quantum Information
Science
SUNY Quantum Research and Education Capacity
Quantum Enabled
Research Frontiers
ACC
ELER
ATIN
G 6
.1 to
6.3
+
Quantum Sensing Quantum Communication Quantum Computing
Quantum-Smart Workforce
Source: Continuing Innovation in Information Technology (2012), National Academies Press
Disclaimer
The information contained in this document is confidential and intended only for the information of the recipient and may not be used, published or redistributed without the prior written consent of the State University of New York (SUNY). The opinions expressed and information enclosed are made in good faith and while every care has been taken in preparing this document, SUNY, its employees and affiliates cannot be held responsible for the use of and reliance of the opinions, estimates, forecasts and findings in this document.