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![Page 1: Akhlesh Lakhtakia NanoMM –– Nanoengineered Metamaterials Group Department of Engineering Science and Mechanics Pennsylvania State University 7 th Iberian.](https://reader036.fdocuments.net/reader036/viewer/2022062517/56649efc5503460f94c0f17e/html5/thumbnails/1.jpg)
Akhlesh LakhtakiaAkhlesh LakhtakiaNanoMM –– Nanoengineered Metamaterials GroupNanoMM –– Nanoengineered Metamaterials GroupDepartment of Engineering Science and MechanicsDepartment of Engineering Science and Mechanics
Pennsylvania State UniversityPennsylvania State University
77thth Iberian Vacuum Meeting Iberian Vacuum Meeting55thth European Topical Conference on Hard Coatings European Topical Conference on Hard CoatingsCaparica, PortugalCaparica, Portugal
Elastodynamics of Inorganic and Elastodynamics of Inorganic and Polymer Sculptured Thin FilmsPolymer Sculptured Thin Films
June 25, 2008June 25, 2008
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Akhlesh LakhtakiaAkhlesh LakhtakiaNanoMM –– Nanoengineered Metamaterials GroupNanoMM –– Nanoengineered Metamaterials GroupDepartment of Engineering Science and MechanicsDepartment of Engineering Science and Mechanics
Pennsylvania State UniversityPennsylvania State University
77thth Iberian Vacuum Meeting Iberian Vacuum Meeting55thth European Topical Conference on Hard Coatings European Topical Conference on Hard CoatingsCaparica, PortugalCaparica, Portugal
Elastodynamics of Inorganic and Elastodynamics of Inorganic and Polymer Sculptured Thin FilmsPolymer Sculptured Thin Films
June 25, 2008June 25, 2008
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• • NanotechnologyNanotechnology
• • MetamaterialsMetamaterials
••Sculptured Thin FilmsSculptured Thin Films
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• • NanotechnologyNanotechnology
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Nanotechnology: The term
Norio Tanaguchi (1974)Norio Tanaguchi (1974)::
‘Nano-technology’ mainly consists of the processing of separation, consolidation, and deformation of materials by one atom or one molecule.
N. Taniguchi, On the Basic Concept of 'Nano-Technology', Proc. Intl. Conf. Prod. Eng. Tokyo, Part II, Japan Society of Precision Engineering, 1974.
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Nanotechnology: The termUS Patents and Trademarks Office US Patents and Trademarks Office (2006)(2006)::
“Nanotechnology is related to research and technology development at the atomic, molecular or macromolecular levels, in the length of scale of approximately 1-100 nanometer range in at least one dimension; that provide a fundamental understanding of phenomena and materials at the nanoscale; and to create and use structures, devices and systems that have novel properties and functions because of their small and/or intermediate size.”
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Nanotech Economy
Total worldwide R&D funding Total worldwide R&D funding = = $ 9.6B in 2005$ 9.6B in 2005
Governments (2005):Governments (2005): $4.6B$4.6BEstablished Corporations (2005):Established Corporations (2005): $4.5B$4.5BVenture Capitalists (2005):Venture Capitalists (2005): $0.5B$0.5B
Source: Lux Research, The Nanotech Report, 4th Ed. (2006).Source: Lux Research, The Nanotech Report, 4th Ed. (2006).
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Nanotech Economy: Scope
Source: Meridian Institute, Nanotechnology and the Poor: Opportunities and Risk (2005)Source: Meridian Institute, Nanotechnology and the Poor: Opportunities and Risk (2005)
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NanotechnologyNanotechnology
promises to bepromises to be
• • pervasivepervasive • • ubiquitousubiquitous
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Nanotechnology & Life
Source:Source:
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A. Lakhtakia
Nanotechnologies?Nanotechnologies?
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• • MetamaterialsMetamaterials
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Engineers
and
Composite Materials
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Evolution of Materials Research
• Material Properties (< ca.1970)• Design for Functionality
(ca.1980)• Design for System Performance
(ca. 2000)
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Evolution of Materials Research
• Material Properties (< ca.1970)• Design for Functionality
(ca.1980)• Design for System Performance
(ca. 2000)
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Evolution of Materials Research
• Material Properties (< ca.1970)• Design for Functionality
(ca.1980)• Design for System Performance
(ca. 2000)
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Multifunctionality
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MultifunctionalityA. Lakhtakia
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MultifunctionalityA. Lakhtakia
Performance Requirements on the Fuselage
1. Light weight (for fuel efficiency)2. High stiffness (resistance to deformation)3. High strength (resistance to rupture)
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MultifunctionalityA. Lakhtakia
Performance Requirements on the Fuselage
1. Light weight (for fuel efficiency)2. High stiffness (resistance to deformation)3. High strength (resistance to rupture)
4. High acoustic damping (quieter cabin)5. Low thermal conductivity (less condensation;
more humid cabin)
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MultifunctionalityA. Lakhtakia
Performance Requirements on the Fuselage
1. Light weight (for fuel efficiency)2. High stiffness (resistance to deformation)3. High strength (resistance to rupture)
4. High acoustic damping (quieter cabin)5. Low thermal conductivity (less condensation;
more humid cabin)
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MultifunctionalityA. Lakhtakia Performance Requirements on the Fuselage
1. Light weight (for fuel efficiency)2. High stiffness (resistance to deformation)3. High strength (resistance to rupture)4. High acoustic damping (quieter cabin)5. Low thermal conductivity (less condensation; more humid cabin)
Future: Conducting & other fibers for (i) reinforcement(ii) antennas(iii) environmental sensing (iv) structural health monitoring(iv) morphing
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Metamaterials
Rodger Walser
SPIE Press (2003)
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Walser’s Definition (2001/2)
• macroscopic composites having a manmade, three-dimensional, periodic cellular architecture designed to produce an optimized combination, not available in nature, of two or more responses to specific excitation
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“Updated” Definition
composites designed to produce an optimized combination of two or more responses to specific excitation
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Cellularity
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A. Lakhtakia Nanoengineered Metamaterials
Cellularity Multifunctionality
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A. Lakhtakia Nanoengineered Metamaterials
Cellularity Multifunctionality
Morphology Performance
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Nanoengineered MetamaterialsA. Lakhtakia
Component: Simple action
Assembly of components: Complex action
Multi-component system = Assembly of different components
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Nanoengineered MetamaterialsA. Lakhtakia
Energy storage cell
Energy distributor cell
Chemisensor cell
Force-sensor cell
RFcomm cellShape-changer cell
Energy harvesting cell
IRcomm cell Light-source cell
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Nanoengineered MetamaterialsA. Lakhtakia
Supercell
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Nanoengineered MetamaterialsA. Lakhtakia
Periodic Arrangement of Supercells Fractal Arrangement of Supercells
Functionally Graded Arrangement of Supercells
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Nanoengineered MetamaterialsA. Lakhtakia
Biomimesis
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Nanoengineered MetamaterialsA. Lakhtakia
Biomimesis
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Nanoengineered MetamaterialsA. Lakhtakia
Fabrication
1. Self-assembly2. Positional assembly3. Lithography4. Etching5. Ink-jet printing6. ….7. ….8. Hybrid techniques
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Nanoengineered MetamaterialsA. Lakhtakia
Fabrication
1. Self-assembly2. Positional assembly3. Lithography4. Etching5. Ink-jet printing6. ….7. ….8. Hybrid techniques
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••Sculptured Thin FilmsSculptured Thin Films
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Sculptured Thin FilmsAssemblies of Parallel Curved Nanowires/Submicronwires
Controllable Nanowire Shape
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Sculptured Thin FilmsAssemblies of Parallel Curved Nanowires/Submicronwires
Controllable Nanowire Shape
A. Lakhtakia
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MorphologicalMorphologicalChangeChange
Sculptured Thin FilmsA. Lakhtakia
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Sculptured Thin Films
Assemblies of Parallel Curved Nanowires/Submicronwires
Controllable Nanowire Shape
2-D morphologies3-D morphologies
vertical sectioning
Nanoengineered Materials (1-3 nm clusters)
Controllable Porosity (10-90 %)
A. Lakhtakia
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Sculptured Thin FilmsAntecedents:
(i) Young and Kowal - 1959
(ii) Niuewenhuizen & Haanstra - 1966
(iii) Motohiro & Taga - 1989
Conceptualized by Lakhtakia & Messier (1992-1995)
Optical applications (1992-1995)
Biological applications (2003-)
A. Lakhtakia
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Sculptured Thin Films
(i) Penn State(ii) Edinboro University of Pennsylvania(iii) Lock Haven University of Pennsylvania(iv) Millersville University(v) Rensselaer Polytechnic University(vi) University of Arkansaa, Little Rock(vii) University of Toledo(viii) University of Georgia(ix) University of South Carolina(x) University of Nebraska at Lincoln(xi) Pacific Northwest National Laboratory(xii) University of Alberta(xiii) Queen’s University(xiv) University of Moncton(xv) National Autonomous University of Mexico
(xvi) Imperial College, London(xvii) University of Glasgow(xviii)University of Edinburgh(xix)University of Leipzig(xx) ENSMM, Besançon(xxi) Toyota R&D Labs(xxii) Kyoto University(xxiii) Hanyang University(xxiv) University of Otago(xxv) University of Canterbury(xxvi) Ben Gurion University of the
Negev(xxvii) University of Campinas
Research GroupsResearch Groups
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Physical Vapor DepositionA. Lakhtakia
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Physical Vapor Deposition (Columnar Thin Films)
A. Lakhtakia
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Physical Vapor Deposition (Sculptured Thin Films)
Rotate abouty axis fornematicmorphology
Rotate aboutz axis forhelicoidalmorphology
Combinedrotations forcomplexmorphologies
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Sculptured Thin FilmsOptical Devices: Polarization Filters
Bragg FiltersUltranarrowband FiltersFluid Concentration SensorsBacterial Sensors
Biomedical Applications: Tissue ScaffoldsSurgical Cover Sheets
Other Applications: Photocatalysis (Toyota)Thermal Barriers (Alberta)Energy Harvesting (Penn State,
Toledo)
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Optics of Chiral STFs
A. Lakhtakia
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Chiral STFs: Circular Bragg Phenomenon
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Chiral STF as CP FilterA. Lakhtakia
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Spectral Hole FilterA. Lakhtakia
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Fluid Concentration SensorA. Lakhtakia
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Optical Modeling of STFs
Dielectric Materials
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Optical Modeling of STFsLocally Orthorhombic Continuums
A. Lakhtakia
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Optical Modeling of STFsHomogenize a collection ofparallel ellipsoidsto get
Sherwin and Lakhtakia (2001-2003): Bruggeman formalism
Mathematica Program
A. Lakhtakia
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Optical Modeling of STFsWave Propagation
Mathematica Program
A. Lakhtakia
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LIGHT EMITTERS
• Luminophores inserted in a chiral STF
• Co- and contra-wound photonic source filaments
• Calculations using Maxwell equations
- volume fraction of filaments
- wavelength
- co/contra-wound
A. Lakhtakia
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LIGHT EMITTERS
• Co/contra-wound:
Clear differences in (i) polarization state
(ii) emission bandwidth
• Dependence on tilt angle
Lakhtakia, Microw. Opt. Technol. Lett. 37, 37 (2003)
A. Lakhtakia
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LIGHT EMITTERS
• Quantum dots inserted in a cavity between two left-handed chiral STFs
Zhang et al., Appl. Phys. Lett. 91, 023102 (2007).
A. Lakhtakia
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LIGHT EMITTERS
• Quantum dots inserted in a cavity between two left-handed chiral STFs
Spectral HoleSpectral Hole
LCP Emission PeakLCP Emission Peak
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Polymeric STFs
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PARYLENE-C STFs: COMBINED CVD+PVD TECHNIQUE
Pursel Pursel et al.et al., , PolymerPolymer 4646, 9544 (2005), 9544 (2005)
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PARYLENE-C STFs: COMBINED CVD+PVD TECHNIQUE
1. Vaporize the dimer at 150 deg C2. Monomerize at 680 deg C and 0.5 Torr3. Release the monomer vapor through a nozzle towards a substrate4. Polymerization into STFs
A. Lakhtakia
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PARYLENE-C STFs: COMBINED CVD+PVD TECHNIQUE
NanoscaleMorphology
Ciliary Structure
A. Lakhtakia
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BIOSCAFFOLDSA. Lakhtakia
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BIOSCAFFOLDS
Lakhtakia et al., Adv. Solid State Phys. 46, 295 (2008).
A. Lakhtakia
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Applications of Parylene STFs
• Cell-culture substrates• Coatings for prostheses (e.g. stents)• Coatings for surgical equipment (e.g., catheters)• Biosensors• Tissue engineering for controlled drug release
Volumetric functionalizationVolumetric functionalization
Optical monitoringOptical monitoring
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STFs WITH TRANSVERSEARCHITECTURE
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STFs WITH TRANSVERSE ARCHITECTURE
Chromium
Molybdenum
Aluminum
Metal STFs on TopographicSubstrates
Horn et al., Nanotechnology 15, 303 (2004).
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STFs WITH TRANSVERSE ARCHITECTURE
HCP array of SiOx nanocolumns BCC array of SiOx nanocolumns
1um x 1um mesh of SiOx nanolines
Dielectric STFs on TopographicSubstrates
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MECHANICAL CHARACTERISTICS
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A. Lakhtakia MECHANICAL CHARACTERISTICS
1.1. Structural IntegrityStructural Integrity2.2. Mechanical Tuning of Optical PropertiesMechanical Tuning of Optical Properties
Pressure SensorsPressure SensorsTemperature SensorsTemperature Sensors
3.3. Acoustic DevicesAcoustic DevicesShear Wave FiltersShear Wave Filters
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of SiO Chiral STFsNanoindentation of SiO Chiral STFs
Seto Seto et al.et al., , J. Vacuum Sci. Technol. BJ. Vacuum Sci. Technol. B 1717, 2172 (1999), 2172 (1999)
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of SiO Chiral STFsNanoindentation of SiO Chiral STFs
Seto Seto et al.et al., , J. Vacuum Sci. Technol. BJ. Vacuum Sci. Technol. B 1717, 2172 (1999), 2172 (1999)
Simple Theory: Chiral STF is a bed of parallel (macroscopic) springsSimple Theory: Chiral STF is a bed of parallel (macroscopic) springs
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of SiO Chiral STFsNanoindentation of SiO Chiral STFs
Seto Seto et al.et al., , J. Vacuum Sci. Technol. BJ. Vacuum Sci. Technol. B 1717, 2172 (1999), 2172 (1999)
Simple Theory: Chiral STF is a bed of parallel (macroscopic) springsSimple Theory: Chiral STF is a bed of parallel (macroscopic) springs
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of Chromium Zigzag STFsNanoindentation of Chromium Zigzag STFs
Lintymer Lintymer et al.et al., , Thin Solid Films Thin Solid Films 503503, 177 (2006), 177 (2006)
Simple Theory: STF is a bed of parallel (macroscopic) springsSimple Theory: STF is a bed of parallel (macroscopic) springs Better continuum model of each spring.Better continuum model of each spring.
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of Chromium Zigzag STFsNanoindentation of Chromium Zigzag STFs
Lintymer Lintymer et al.et al., , Thin Solid Films Thin Solid Films 503503, 177 (2006), 177 (2006)
Simple Theory: STF is a bed of parallel (macroscopic) springsSimple Theory: STF is a bed of parallel (macroscopic) springs Better continuum model of each spring.Better continuum model of each spring.
ExperimentalExperimental
ExperimentalExperimental
ModelsModels
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A. Lakhtakia STRUCTURAL INTEGRITY
Nanoindentation of Chromium Zigzag STFsNanoindentation of Chromium Zigzag STFs
Lintymer Lintymer et al.et al., , Thin Solid Films Thin Solid Films 503503, 177 (2006), 177 (2006)
Simple Theory: STF is a bed of parallel (macroscopic) springsSimple Theory: STF is a bed of parallel (macroscopic) springs Better continuum model of each spring.Better continuum model of each spring.
ExperimentalExperimental
ExperimentalExperimental
ModelsModels
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A. Lakhtakia MECHANICAL TUNABILITY OF OPTICAL FILTERS
Chiral STF is a circular-polarization Bragg filterChiral STF is a circular-polarization Bragg filter
Center wavelength ~ Center wavelength ~ PeriodPeriod x x Effective RIEffective RI
FWHM ~ FWHM ~ Period Period Linear BirefringenceLinear Birefringence
Wang Wang et al.et al., , J. Modern Opt. J. Modern Opt. 5050, 239 (2003), 239 (2003)
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A. Lakhtakia MECHANICAL TUNABILITY OF OPTICAL FILTERS
Chiral STF is a circular-polarization Bragg filterChiral STF is a circular-polarization Bragg filter
Center wavelength ~ Center wavelength ~ PeriodPeriod x x Effective RIEffective RI
FWHM ~ FWHM ~ Period Period Linear BirefringenceLinear Birefringence
Wang Wang et al.et al., , J. Modern Opt. J. Modern Opt. 5050, 239 (2003), 239 (2003)
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A. Lakhtakia MECHANICAL TUNABILITY OF OPTICAL FILTERS
Wang Wang et al.et al., , J. Modern Opt. J. Modern Opt. 5050, 239 (2003), 239 (2003)
Shift of center wavelength ~ Shift of center wavelength ~ DC VoltageDC Voltage
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A. Lakhtakia MECHANICAL TUNABILITY OF OPTICAL FILTERS
Wang Wang et al.et al., , J. Modern Opt. J. Modern Opt. 5050, 239 (2003), 239 (2003)
FWHM does not changeFWHM does not change
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A. Lakhtakia MECHANICAL TUNABILITY OF LIGHT-EMITTERS
Wang Wang et al.et al., , Sens. Actuat. A Sens. Actuat. A 102102, 31 (2002), 31 (2002)
Dye-doped polymer chiral STF Dye-doped polymer chiral STF Light-emittersLight-emitters
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Lakhtakia, Lakhtakia, J. Compos. Mater. J. Compos. Mater. 3636, 1277 (2002), 1277 (2002)
Hooke’s LawHooke’s Law
Kelvin notationKelvin notation
ComplianceCompliance
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Lakhtakia, Lakhtakia, J. Compos. Mater. J. Compos. Mater. 3636, 1277 (2002), 1277 (2002)
Hooke’s LawHooke’s Law
Kelvin notationKelvin notation
ComplianceCompliance
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Lakhtakia, Lakhtakia, J. Compos. Mater. J. Compos. Mater. 3636, 1277 (2002), 1277 (2002)
ComplianceCompliance
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Lakhtakia, Lakhtakia, J. Compos. Mater. J. Compos. Mater. 3636, 1277 (2002), 1277 (2002)
ComplianceCompliance
Homogenize a collection ofparallel ellipsoidsto get
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Lakhtakia, Lakhtakia, J. Compos. Mater. J. Compos. Mater. 3636, 1277 (2002), 1277 (2002)
ComplianceCompliance
Homogenize a collection ofparallel ellipsoidsto get
Mori-Tanaka Mori-Tanaka formalismformalism
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Solve Navier’s equationSolve Navier’s equation
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A. Lakhtakia LINEAR ELASTODYNAMIC MODEL
Of a CHIRAL STF
Solve Navier’s equationSolve Navier’s equation
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• • NanotechnologyNanotechnology
• • MetamaterialsMetamaterials
••Sculptured Thin FilmsSculptured Thin Films
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A. Lakhtakia