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METAMATERIALS

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METAMATERIALS Atanu Banerjee Mechanical & Aerospace Engineering Microelectronic Fabrication CONTENTS What is Metamaterial? Metamaterials Vs Natural Materials. – PowerPoint PPT presentation

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Title: METAMATERIALS


1
METAMATERIALS
  • Atanu Banerjee
  • Mechanical Aerospace Engineering
  • Microelectronic Fabrication

2
CONTENTS
  • What is Metamaterial?
  • Metamaterials Vs Natural Materials.
  • Brief History of Metamaterial Research.
  • Classification of Metamaterials.
  • Applications of Metamaterials.
  • Metamaterial RD.
  • Conclusion.

3
What is Metamaterial?
  • The term Metamaterial is first coined by Roger M
    Walser, University of Texas at Austin in 1999.
  • A Metamaterial(MM) is a macroscopic composite of
    periodic or non-periodic structure whose function
    is due to both the cellular architecture as well
    as the chemical composition.
  • They exhibit properties generally not found in
    nature.
  • Figure Two typical metamaterial structures in
    the microwave regime. (a) A periodic structure,
    which is equivalent to a homogeneous medium. (b)
    A non-periodic structure, which is equivalent to
    an inhomogeneous (gradient) medium.

4
Metamaterials Vs Natural Materials
  • Most of the natural materials occur at discrete
    points, so most of the material properties have
    to be realized using metamaterials.
  • Metamaterials gives us the opportunity to realize
    all possible material properties by designing
    different cellular architecture and using
    different material substrates.

5
Metamaterials Vs Natural Materials
  • Possible unique functionalities for
    Metamaterials
  • the point µ -µ0 and e -e0 represents an
    anti-air in the LHM region, which will produce a
    perfect lens.
  • The point µ 0 and e 0 represents a nihility,
    which can yield a perfect tunneling effect.
  • The line µ e in both RHM and LHM regions
    represents impedance-matching materials, which
    have perfect impedance matching with air,
    resulting no reflections.

6
Brief History of Metamaterial Research
  • At the end of 19th century there had been
    extensive search for artificial material for
    manipulating electromagnetic waves.
  • Theoretical proposal of Left-handed material was
    first done by Veselago in 1968.
  • Mandelshtam published first on negative
    refraction followed by Malyuzhinets in 1951 who
    studied Sommerfield condition on backward wave
    media.
  • Pendry et al in 1996 used an artificial wired
    medium whose permittivity is negative to realize
    artificial electric plasma, followed by this in
    1999 magnetic plasma is realized whose
    permeability is negative, using split-ring
    resonators (SRR).
  • In 2005 Smith et al realized gradient refractive
    index medium to bend electromagnetic waves. In
    2006 optical transformation is proposed to
    control and manipulate electromagnetic waves and
    proposition of invisible cloak.

7
Classification of Metamaterials
  • 1) Negative Index Materials.
  • 2) Single negative materials.
  • 3) Electromagnetic bandgap materials.
  • 4) Double positive medium.
  • 5) Bi-isotropic and Bi-anisotropic metamaterials.
  • 6) Chiral metamaterials.

8
Application of Metamaterials
9
Terahertz Modulators
  • Natural materials do not respond to Terahertz
    frequency, also called Terahertz gap.
  • A high passive modulation of the LC resonance has
    been achieved which can used to design terahertz
    modulators.
  • -Zhang et al., OSU

10
Super Lens
  • The light emitted or scattered from an object
    includes not only propagating waves but also
    evanescent waves, which carry the subwavelength
    detail of the object.
  • If a lens made of NIM is placed close to an
    object, the near-field evanescent waves can be
    strongly enhanced across the lens.

11
Super Lens
  • By completely recovering both propagating and
    evanescent waves in phase and amplitude, a
    perfect image is created which is not limited by
    diffraction.

12
Metamaterial Absorber
  • It uses the loss components of permittivity and
    magnetic permeability to realize a medium which
    has high radiation absorption ratio.
  • They have advantages over conventional absorbers
    on enhanced miniaturization, increased
    adaptability and effectiveness.
  • These have application in emitters, sensors,
    spatial light modulators, infrared camouflage,
    thermophotovoltaics, etc.

13
Cloaking Device
  • Metamaterials direct and control the propagation
    and transmission of specified parts of the light
    spectrum and demonstrate the potential to render
    an object seemingly invisible.
  • Incident waves are guided around them without
    being affected by the object itself.

14
Elastic Metamaterials
  • It is defined as a new design for elastic
    metamaterials that can behave either as liquids
    or solids over a limited frequency range may
    enable new applications based on the control of
    acoustic, elastic and seismic waves.
  • These can be acoustic metamaterials or can be
    seismic.

15
RD in companies
  • American Government
  • 1. Oak Ridge National Laboratory's Optical
    Metamaterials Program, which focuses only on
    energy related challenges. Research focus
    Photovoltaics, LED Lighting, Thermal PV, Optical
    Microscopy, Sensors, etc.
  • 2. U.S. defence focuses mainly on cloaking
    and stealth technology through metamaterials.
  • EoPlex Technologies
  • Micro Metamaterial antenna which
  • shows high efficiency.
  • MIT discovered lens for radio waves.

16
Conclusion
  • Theoretically metamaterial can have desired value
    of µ and e. Hence they can different properties
    and put to different applications.
  • It is due to Metamaterials that several phenomena
    that would undoubtedly have been considered
    science fiction only a few years ago have been
    explicitly demonstrated.
  • Though, many fascinating linear and nonlinear
    phenomena taking place in metamaterials have been
    theoretically predicted that still remain to be
    experimentally demonstrated.
  • With the improvement of micro nano-fabrication
    techniques metamaterials will become efficient
    and cheap.

17
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