PhotOQuanT Photonic and Optomechanical Sensors for Nanoscaled and Quantum Thermometry.

Slides:



Advertisements
Similar presentations
Crashworthiness and High Strain Rate Material Testing Test Development for Vehicle Crash Conditions Motivation: The current vehicle design approaches result.
Advertisements

Nanoscience and Manufacturing
MIcro-NanOSystems ECAD Laboratory GOSPEL : General Olfaction and Sensing Projects on a European Level Projects on a European Level A Network.
Nanotechnology for Electronics and Sensors BIOE298dp ( )
Metrology: The fabric of science and technology Lafe Spietz TMA class of 1990.
ELECTRONIC INSTRUMENTATION
Empowering stakeholders EE9 Olav Luyckx Project Advisor, EASME.
Triggers Targets Experimental realisation Metrological application of basic science & technology Enabling science & technology Dimensional.
Module 3 Eng. Asma Abu Baker. Introduction One of the most important uses of instruments or measuring devices is in the field of process control. If you.
EKT314/4 Electronic Instrumentation
NANO-ELECTRO-MECHANICAL SYSTEM(NEMS)
European Metrology Research Program (EMRP) MeteoMet Project (October 2011) WP3. Traceable measurements methods and protocols for ground based meteorological.
Valorisation and dissemination of EAF technology
CRESCENDO Full virtuality in design and product development within the extended enterprise Naples, 28 Nov
CHAPTERS 2&3 Engineering Majors 1 ELEC 104, Fall 2010 Dr. McKinney.
 Basic Definition:  Basic Definition: Technology of building or creating products such as electronic circuits from single atoms and molecules Deals.
Instrumentation and Metrology for Nanocharacterization.
Unit 5 Lesson 3-5 Combined Transportation, Manufacturing, Construction.
Applications of Quantum Physics
Light. Questions ??? What is light? What is light? Why can we see objects in the presence of light? Why can we see objects in the presence of light? How.
1 New Materials, Surfaces and Sensing Applications Novel Functional Materials Intelligent Materials Surface Functionalisation Nanomaterials and Nanocoatings.
EGEE is a project funded by the European Union under contract IST Advances in the Grid enabled molecular simulator (GEMS) EGEE 06 Conference.
Nano-electronics Vision: Instrumentation and methods for analysis of atomic scale physical properties, and methods to correlate these properties with nano-electronic.
~MEETING TECHNOLOGY~ Unit 1 Lesson 2 © 2011 International Technology and Engineering Educators Association, STEM  Center for Teaching and Learning™ Exploring.
Megaregions Energy Systems Megaregions + MetroProsperity Sustainable Economics for the Texas Triangle September 24, 2009 Raymond L. Orbach Director Energy.
Networked Embedded and Control Systems WP ICT Call 2 Objective ICT ICT National Contact Points Mercè Griera i Fisa Brussels, 23 May 2007.
Call 5 National Contact point Briefing, Brussels, 12 May 2009 INFSO FET Ralph Stübner Future and Emerging Technologies Objective ICT : Towards.
 RESPONSIBILITY: FP7 Co-ordination action  Aim: contribute to development of RRI Governance Framework for future European Commission (and eventually.
MANISH GUPTA. Presentation Outline Introduction Motivation Content Expected Impact Funding Schemes & Budget.
Metrology of Electrical Quantities
MET253 Measurements in Biomedical Instruments. MEASUREMENT  Defined as 1. The process of numerical evaluation of dimension. 2. The process of comparison.
Instrument Characteristics  Scientific Instrument: l A device for making a measurement.  Measurement: l An action intended to assign a number as the.
ICT – SSI Smart System Integration Henri Rajbenbach European Commission DG CONNECT (Communications Networks, Content and Technology) ICT-03 -
EE588 : Semiconductor Manufacturing Equipment and Systems Course Introduction Dr. Stephen Daniels Dublin City University.
ORGANIC AGRICULTURE AND ECOLOGICAL ECONOMY: A WAY FORWARD IN AGRICULTURAL SUSTAINABILITY Dragiša Milošev, Srđan Šeremešić, Milorad Živanov, Bosiljka Todić.
WP1 WP2 WP3 WP4 WP5 COORDINATOR WORK PACKAGE LDR RESEARCHER ACEOLE MID TERM REVIEW CERN 3 RD AUGUST 2010 Work Package 1: Pixel detector systems for particle.
Introduction to Lab Techniques Measurements and Calibration.
MarketsandMarkets Presents Photonic Sensor Market.
1 Michael Poplawski Pacific Northwest National Laboratory Internet of Things: Impacts of the Connected Home on EE, from a Lighting perspective April 22,
RESISTIVE TEMPERATURE TRANSDUCERS
Accelerating development of high- performance detector and imaging technologies for science and markets Pablo Tello (CERN)
Temperature Sensors.
Temperature Sensors.
Instrumentation & Measurement
Contact Pathways Resource Center:
OF THE ХI KAZENERGY EURASIAN FORUM “SECURING THE FUTURE OF ENERGY”
Measurements & Instrumentation – Module 3
Energy Sources and Sustainability
Nanotechnology applications for safety and health at work
Thin Films for the Next Generation of Neutron Detectors
Glen Garrod Vice-President, ADASS 17 October 2017
Metrology The Science of Measurement
Action IC0603 Antenna Systems & Sensors for Information Society Technologies (ASSIST) Participating countries: BE, BG, CH, CY, CZ, DE, DK, EE, ES, FI,
Making the Future Novel Solutions for Manufacturing Processes
Magnetometer Market
New analyzers for new businesses
Photonics and Electro-Optical Engineering
Smart Meters in Power Systems
Status report of DG2 CCL-18-52, DG2 report to CCL-WG-MRA June 2018
MEthane activation via integrated MEmbrane REactors
© 2016 Global Market Insights, Inc. USA. All Rights Reserved Fuel Cell Market size worth $25.5bn by 2024 Low Power Wide Area Network.
Controlling Sensors Efficiently with MCUs
Unit 5 Lesson 6 Agriculture.
H2020 Infoday on Photonics Topics
KICK-OFF Overview and thematic approach 19th of June 2017
Measurements & Error Analysis
SIMULATION IN THE FINANCE INDUSTRY BY HARESH JANI
Chapter RESOURCE ACCESS AND DEVELOPMENT
Chapter PREDICTION AND ASSESSMENT OF RESOURCES
Presented By: T.M Ramashidzha Metrology Scientist
Presentation transcript:

PhotOQuanT Photonic and Optomechanical Sensors for Nanoscaled and Quantum Thermometry

OVERVIEW Introduction Why PhotOQuant? Objective Structure of the project and partners Beyond the state-of-the-art Impact

Introduction Photonic sensors use the light-matter interaction to measure temperature and other physical quantities via temperature-dependent material properties. A particularly promising new development is the possibility of using optomechanical sensors to produce quantum primary standards. Photonic and optomechanical temperature sensors enable a spatial resolution adapted for the measurement of temperature at micrometer length scale where usual sensors are unsuitable. These sensors will have optimised sensitivity as well as robustness to mechanical constraints and chemical species, and will be of prime importance for the future dissemination of the kelvin following its forthcoming re-definition in 2018.

Why PhotoQuant? Temperature is probably the most important physical variable of state, influencing almost every physical, chemical, and biological process. Furthermore, the demand for advanced manufacturing metrology is growing. Driven by new technologies such as “lab on a chip”, microelectronics, optoelectronics or microfluidics. But… …. the world’s most accurate temperature sensors, standard platinum resistance thermometers, rely on antiquated technologies that do not lend themselves to miniaturisation, portability, or wide dissemination.

Objective WP4 WP3 WP2 WP1 Calibration procedures Read-out protocols PhotOQuanT aims at exploring the potential of high resolution photonics and optomechanical sensors in terms of sensitivity, uncertainty and resolution for realising future quantum and nanoscaled temperature standards Design and fabrication Investigation of photo-elastic properties Read-out protocols Calibration procedures WP4 WP3 WP2 WP1

WP5 Impact Structure of the project and partners WP6 Management and coordination WP5 Impact WP1 Design and fabrication WP2 Photo-elastic properties WP3 Read-out protocols WP4 Calibration procedures

Beyond the state-of-the-art PhotoQuant is intended not only to design and construct photonic and optomechanical sensors but to study their temperature systematic effects and the quantum regime itself. 2D Photonic Cristal A full uncertainty budget of these high-performance temperature sensors will be provided, that has not been reported yet for optomechanical resonators. Ring Resonator

Semiconductor industry Impact PhotoQuant will contribute to solve the problem of drift of embedded sensors. Our mesoscopic sensors will enhance the reliability of temperature measurement for applications in fields such as transportation industry, space instrumentation, engine monitoring, power plant safety and consumer electronics. Their robustness offers a new solution to temperature measurement in the harsh environments found in chemical industry, nuclear, oil or gas industry. As a result of their high resolution and high reliability, they should enable power plants or engine industries to save energy and to enhance process efficiency. PhotOQuanT also paves the way to high accuracy temperature measurement on a mesoscopic scale. With an improved robustness and sensitivity, photonic sensors could replace standard platinum resistance thermometers Semiconductor industry Lab-on-a-chip Microfluidics Space Power plant safety Chemical Industry Gas and oil Health

Thanks for your attention! PhotOQuant : the first European attempt to develop a quantum standard for temperature metrology Thanks for your attention!