Negative refraction

Negative refraction

Negative refraction is the name for an electromagnetic phenomenon where light rays are refracted at an interface in the reverse sense to that normally expected. Such an effect can be obtained using a metamaterial which has been designed to achieve a negative value for both (electric) permittivity ε and (magnetic) permeability μ, as in such cases the material can be assigned a negative refractive index. Such materials are sometimes called "double negative" materials.

Negative refraction occurs at interfaces between materials at which one has an ordinary positive phase velocity (i.e. a positive refractive index), and the other has the more exotic negative phase velocity (refractive index).

Contents

Negative phase velocity

Negative phase velocity (NPV) is a property of light propagation in a medium. There are different definitions of NPV, the most common being Veselago's original proposal [1] of opposition of wavevector and (Abraham) Poynting vector, i.e. E×H; other common choices are opposition of wavevector to group velocity, or to energy velocity. The use of "phase velocity" in the naming convention as opposed to the perhaps more appropriate "wavevector" follows since phase velocity has the same sign as the wavevector.

A typical criterion used to determine Veselago NPV is that the dot product of the Poynting vector and wavevector is negative (i.e. that \scriptstyle\vec{P}\cdot\vec{k}<0); however this definition is not covariant. Whilst this restriction is rarely of practical significance, the criterion has nevertheless been generalized into a covariant form.[2] For plane waves propagating in a Veselago NPV medium, the electric field, magnetic field and wave vector follow a left-hand rule, rather than the usual right-hand rule. This gives rise to the name "left-handed (meta)materials". However, the terms left-handed and right-handed can also arise in the study of chiral media, so this terminology is best avoided.

Group velocity NPV has the interesting feature that one can use Kramers-Kronig relations to provide causality-based constraints on the potential for NPV, however these tend to be either rather restricted in nature, or rather difficult to use.[3][4]

Negative refractive index

A comparison of refraction in a left-handed metamaterial to that in a normal material
Video representing negative refraction of light at uniform planar interface.

We can choose to avoid directly considering the Poynting vector and wavevector or a propagating light field, and consider instead the response of the materials directly: that is, we consider what values of permittivity ε and permeability µ result in NPV. Since both ε and µ are in general complex, their real parts do not have to be negative for a passive (i.e. lossy) material to display negative refraction. The most general Veselago criterion applying to ε and µ is that of Depine and Lakhtakia,[5] although other less general forms exist.[6] The Depine-Lakhtakia criterion for negative phase velocity is

 \epsilon_r|\mu|+ \mu_r |\epsilon| < 0,

where \epsilon_r, \mu_r are the real valued parts of ε and µ, respectively. However, negative refraction (negative refractive index) and negative phase velocity can be distinct from each other, even in passive materials,[7] but also in active materials.[8]

Typically, the refractive index n is determined using \scriptstyle n =\pm\sqrt{\epsilon\mu}, where by convention the positive square root is chosen for n. However, in NPV materials, we reverse that convention and pick the negative sign to mimic the fact that the wavevector (and hence phase velocity) are likewise reversed. Strictly speaking, the refractive index is a derived quantity telling us how the wavevector is related to the optical frequency and propagation direction of the light, thus the sign of n must be chosen to match the physical situation.

Refraction

The principle symptom of negative refraction is just that – light rays are refracted on the same side of the normal on entering the material, as indicated in the diagram, and by a suitably general form of Snell's law.

References

  1. ^ V. G. Veselago (1968 (Russian text 1967)). "The electrodynamics of substances with simultaneously negative values of ε and μ". Sov. Phys. Usp. 10 (4): 509–14. Bibcode 1968SvPhU..10..509V. doi:10.1070/PU1968v010n04ABEH003699. http://ufn.ru/en/articles/1968/4/a/. 
  2. ^ M. W. McCall (2008). "A Covariant Theory of Negative Phase Velocity Propagation". Metamaterials 2: 92. Bibcode 2008MetaM...2...92M. doi:10.1016/j.metmat.2008.05.001. 
  3. ^ M. Stockman (2007). "Criterion for Negative Refraction with Low Optical Losses from a Fundamental Principle of Causality". Phys. Rev. Lett. 98: 177404. Bibcode 2007PhRvL..98q7404S. doi:10.1103/PhysRevLett.98.177404. 
  4. ^ P. Kinsler and M. W. McCall (2008). "Causality-based conditions for negative refraction must be used with care". Phys. Rev. Lett. 101: 167401. Bibcode 2008PhRvL.101p7401K. doi:10.1103/PhysRevLett.101.167401. 
  5. ^ R. A. Depine and A. Lakhtakia (2004). "A new condition to identify isotropic dielectric-magnetic materials displaying negative phase velocity". Microwave and Optical Technology Letters 41: 315. doi:10.1002/mop.20127. 
  6. ^ P. Kinsler and M. W. McCall (2008). "Criteria for negative refraction in active and passive media". Microwave and Optical Technology Letters 50: 1804. doi:10.1002/mop.23489. 
  7. ^ T. G. Mackay and A. Lakhtakia (2009). "Negative refraction, negative phase velocity, and counterposition in bianisotropic materials and metamaterials". Physical Review B 79: 235121. Bibcode 2009PhRvB..79w5121M. doi:10.1103/PhysRevB.79.235121. 
  8. ^ A. Lakhtakia, T. G. Mackay and J. B. Geddes III (2009). "On the inapplicability of a negative-phase-velocity condition as a negative-refraction condition for active materials". Microwave and Optical Technology Letters 51: 1230. doi:10.1002/mop.24289. 

See also

Electromagnetic interactions


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