Experimental investigation of circular Bragg phenomenon exhibited by a mirror-backed chiral sculptured thin film

Reflective geometric phase flat optics made from chiral anisotropic media recently unveiled a promising route towards polychromatic beam shaping. However, these broadband benefits are strongly mitigated by the fact that flipping the incident helicity does not ensure geometric phase reversal. Here we overcome this fundamental limitation by a simple and robust add-on whose advantages are emphasized in the context of spin-to-orbital angular momentum mapping.

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“…1(c) and discussed in Ref. [31]. Arbitrarily polarized light is thus fully Bragg reflected for optical frequencies inside the band gap; see Fig.…”

mentioning

confidence: 77%

Spin-to-Orbital Angular Momentum Mapping of Polychromatic Light

Rafayelyan

Brasselet

2018

Phys. Rev. Lett.

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“…The plane-wave response characteristics of Bragg mirrors of both types were determined for λ 0 ∈ [500 nm, 900 nm] in a dark room, using a custom computer-controlled variable-angle spectroscopic system described elsewhere [5,11,15], λ 0 being the free-space wavelength. The specular linear reflectances R ss , R ps , R sp , and R pp of both films deposited on glass slides were measured for θ inc ∈ [10 • , 70 • ], in steps of 5 • , θ inc being the angle of incidence with respect to the z axis.…”

Section: Optical Characterizationmentioning

confidence: 99%

“…It must be sufficiently thick for its plane-wave reflectance to be extremely high in certain spectral regimes that depend on the direction of propagation and the polarization state of the incident plane wave. Although Bragg mirrors for lasers are commonly produced by physical vapor deposition of alternating layers of two different isotropic dielectric materials [1,2,3,4], Bragg mirrors can also be made of anisotropic thin films [5,6,7], cholesteric liquid-crystalline materials [8,9,10], and chiral sculptured thin films [11,12].…”

Section: Introductionmentioning

confidence: 99%

Alteration of optical Bragg phenomenon by substrate roughness

Fiallo

Horn

et al. 2023

Surface Engineering and Forensics

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A Bragg mirror is a dielectric slab that is periodically nonhomogeneous in the thickness direction. It displays the Bragg phenomenon as a high-reflectance spectral regime that depends on the direction of propagation and the polarization state of the incident light. Implicit in both theoretical treatments and fabrication procedures is the smoothness of the surface on which the Bragg mirror is fabricated. We have found that the Bragg phenomenon exhibited in the visible regime by periodically nonhomogeneous thin films grown on glass substrates can be significantly affected, even nullified, by pre-fabrication roughening of the surface of the substrate.

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“…Theoretical results for oblique incidence have also been published [36][37][38][39][40][41][42], but experimental data for oblique incidence are rare and incomprehensive [36,[42][43][44][45][46][47]. Although spectrums of the circular reflectances and transmittances over wide ranges of both λ 0 and θ inc have recently been published [21,48], we provide calculated values of R L , R R , T L , and T R as functions of λ 0 and θ inc in Fig. 1 both for completeness as well as to contextualize novel results.…”

Section: Circular Reflectances and Transmittancesmentioning

confidence: 99%

Experimental and theoretical investigation of the co-occurrence of linear and circular dichroisms for oblique incidence of light on chiral sculptured thin films

McAtee

Lakhtakia

2018

J. Opt. Soc. Am. A

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Theory shows that a slab of a dielectric structurally chiral material (DSCM) exhibits both linear and circular dichroisms because of its anisotropy and structural chirality, for normal as well as oblique incidence. This conclusion was confirmed by fabricating a chiral sculptured thin film and measuring the spectra of its reflectances and transmittances, both linear and circular. Signatures of the circular Bragg phenomenon are evident in the spectra of all reflectances, transmittances, absorptances, and dichroisms. Reversal of the structural handedness of a DSCM and rotation of the projection of the direction of propagation of the incident light clockwise instead of counterclockwise about the axis of helicoidal nonhomogeneity simultaneously changes the sign of circular dichroism but has no effect on linear dichroism.

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Experimental investigation of circular Bragg phenomenon exhibited by a mirror-backed chiral sculptured thin film

Cited by 9 publications

References 13 publications

Spin-to-Orbital Angular Momentum Mapping of Polychromatic Light

Spin-to-Orbital Angular Momentum Mapping of Polychromatic Light

Alteration of optical Bragg phenomenon by substrate roughness

Experimental and theoretical investigation of the co-occurrence of linear and circular dichroisms for oblique incidence of light on chiral sculptured thin films

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