Luneburg Lens Approach to Nuclear Rainbow Scattering

Michel, F. C.; Reidemeister, Guy; Ohkubo, S.

doi:10.1103/physrevlett.89.152701

Cited by 96 publications

(173 citation statements)

References 19 publications

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“…However, this simple dominance does not explain, by itself the structure of the far-side component. In fact the above picture has already been challenged by Anni [9] and by Michel et al [21] for the simple reason that the far-side amplitude has never been decomposed in subamplitudes which would explain the interference. We come back to this topic in Section III.…”

Section: A Woods-saxon Form Factorsmentioning

confidence: 92%

“…We come back to this topic in Section III. For the moment we adopt the interpretation of Michel et al [21] and denote the complex structure at intermediate angles in the data as pre-rainbow oscillations. A model independent analysis in which the diagonal S-matrix elements are extracted directly from the data through a complex phase shift analysis confirm that the Airy oscillation at θ ≈ 60 • is a real effect.…”

Section: A Woods-saxon Form Factorsmentioning

confidence: 99%

“…24, the enhancement fator, is responsible for the multiple reflections of the wave within the potential pocket. When the absorption in the nuclear interior is large, the enhancement factor reduces to one and we are left with the expression used in [21]. Since the semi-classical scattering function is decomposed additively, S W KB = S B + S I , the corresponding total scattering amplitude is decomposed likewise as f W KB = f B + f I and conveniently the corresponding barrier and internal barrier angular distributions are calculated as σ B,I = |f B,I | 2 , using the usual angular momentum expansion of the amplitudes.…”

Section: Semiclassical Barrier and Internal Barrier Amplitudesmentioning

confidence: 99%

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Refractive versus resonant diffraction scattering of loosely bound6Li nuclei

Cârstoiu

Trache

2012

Phys. Rev. C

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We present a complete analysis of elastic scattering 6 Li+ 16 O at 4 and 5 MeV/nucleon. Using either traditional Woods-Saxon or a range of semi-microscopic folding form-factors we find that the data require deep, highly transparent potentials. Physically relevant solutions are selected according to dispersion relation. The intermediate angle structures and the oscillatory increase of the cross section at large angles is interpreted either as a pre-rainbow oscillation resulting from the interference of the barrier and internal barrier far-side scattering subamplitudes, or, equally well, as a resonant diffraction arising from two Regge poles located in peripheral waves. Both semi-classical and Regge pole approaches allow a dynamical separation of the resonant component of the S-matrix.

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Section: A Woods-saxon Form Factorsmentioning

confidence: 92%

Section: A Woods-saxon Form Factorsmentioning

confidence: 99%

Section: Semiclassical Barrier and Internal Barrier Amplitudesmentioning

confidence: 99%

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Refractive versus resonant diffraction scattering of loosely bound6Li nuclei

Cârstoiu

Trache

2012

Phys. Rev. C

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“…The field distribution in the focal region of a dielectric spherical lens has been studied by many authors (see for example [11,12]). Our studies are based on the classical Mie series solution for a homogeneous dielectric sphere.…”

Section: Focal Region Of a Dielectric Spherical Lensmentioning

confidence: 99%

“…The characteristic size of the focal region or "focal spot" is comparable with a wavelength. Some results on EM energy density distribution in spherical lenses can be found in [11] and [12]. In general, the focusing properties of a three-parameter class of oblate Luneberg-like inhomogeneous lenses are studied in [13].…”

Section: Introductionmentioning

confidence: 99%

Radar Cross-Section Studies of Spherical Lens Reflectors

Vinogradov¹,

Smith²,

Kot³

et al. 2007

PIER

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Abstract-The reflectivity of a Spherical Lens Reflector is investigated. The scattering of an electromagnetic plane wave by a Spherical Lens Reflector is treated as a classical boundary value problem for Maxwell's equations. No restrictions are imposed on the electrical size of reflectors and the angular size of the metallic spherical cap. The competitiveness of the Spherical Lens Reflector against the Luneberg Lens Reflector is demonstrated. It has been found that Spherical Lens Reflectors with relative dielectric constant in the range 3.4 ≤ ε r ≤ 3.7 possess better spectral performance than 3-or 5-layer Luneberg Lens Reflectors in a wide frequency range.

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Toward understanding the microscopic origin of nuclear clustering

Okołowicz

Nazarewicz

Płoszajczak

2012

Fortschritte der Physik

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Open Quantum System (OQS) description of a many-body system involves interaction of Shell Model (SM) states through the particle continuum. In realistic nuclear applications, this interaction may lead to collective phenomena in the ensemble of SM states. We claim that the nuclear clustering is an emergent, near-threshold phenomenon, which cannot be elucidated within the Closed Quantum System (CQS) framework. We approach this problem by investigating the near-threshold behavior of Exceptional Points (EPs) in the realistic Continuum Shell Model (CSM). The consequences for the alpha-clustering phenomenon are discussed.

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Luneburg Lens Approach to Nuclear Rainbow Scattering

Cited by 96 publications

References 19 publications

Refractive versus resonant diffraction scattering of loosely bound6Li nuclei

Refractive versus resonant diffraction scattering of loosely bound6Li nuclei

Radar Cross-Section Studies of Spherical Lens Reflectors

Toward understanding the microscopic origin of nuclear clustering

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