Inclined-incidence hard-X-ray resonator with ultrahigh efficiency and resolution

Wu, Yung-Chun; Tsai, Yi-Wei; Chu, Chih‐Peng; Liu, W.-C.; Chang, Y.-Y.; Chang, Shih‐Lin

doi:10.1364/oe.23.009994

Cited by 5 publications

(6 citation statements)

References 16 publications

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“…The efficiency is thus remarkably enhanced by changing the incident path from normal to Bragg incidence. An experiment using a hard X-ray resonator at Bragg incidence was demonstrated earlier with a 200 mm (first plate)/240 mm (gap)/100 mm (second plate) Sibased cavity (Wu et al, 2015). The efficiency of the FP resonance at Bragg incidence, as measured by the visibility V = (I max À I min )/(I max + I min ), was enhanced by nearly 30 times compared with normal incidence.…”

Section: Ultra-high Resolution and Efficiency X-ray Resonators At Bramentioning

confidence: 77%

“…Also, the efficiency (peak transmission) of the FP resonance was limited by crystal absorption. To improve the performance of crystalbased resonators, inclined-incidence resonators have been applied by utilizing one of the multiple diffractions as the incident beam to excite back reflection in the cavity for resonance, and the experimental results exhibited ultra-high efficiency compared with that at normal incidence (Wu et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

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Theoretical considerations in the construction of hard X-ray resonators at inclined incidence with ultra-high efficiency and resolution

Chang

Tsai

et al. 2016

J Appl Cryst

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Detailed considerations of how to construct inclined‐incidence hard X‐ray resonators are presented. Owing to the symmetry of the crystals used, the Bragg back reflection usually employed in normal‐incidence two‐ and multi‐plate resonators to reflect the X‐ray beam is often accompanied by unavoidable multiple‐beam diffraction, and thus the reflectivity and cavity finesse are quite low. In contrast, crystal‐based Fabry–Perot (FP) resonators at inclined incidence utilize multiple‐beam diffraction to excite the back reflection inside the resonator to generate FP resonance with high efficiency, while avoiding the incident beam suffering from crystal absorption. The useful characteristics of inclined‐incidence resonators are derived from numerical calculations based on the inclined‐incidence diffraction geometry and the dynamical theory. Experimental results with Laue inclined incidence are in accordance with the simulation. The sub‐millielectronvolt energy resolution and ultra‐high efficiency of the transmission spectrum of the proposed resonators are also described.

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Section: Ultra-high Resolution and Efficiency X-ray Resonators At Bramentioning

confidence: 77%

Section: Introductionmentioning

confidence: 99%

Theoretical considerations in the construction of hard X-ray resonators at inclined incidence with ultra-high efficiency and resolution

Chang

Tsai

et al. 2016

J Appl Cryst

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“…In contrast, the slanting SiNWs attract attentions on their special characteristics as well. Simulation works have compared the light harvesting ability between the slanting and vertically aligned SiNW structure [106][107][108]. The slanting SiNWs architecture demonstrates a strong suppression of reflectance and enhanced light trapping ability with highest ultimate efficiency of 33.45%, better than its freestanding counterparts (28.36%) [106].…”

Section: Tilted Sinws Versus Vertically Aligned Sinwsmentioning

confidence: 99%

“…For a typical vertical axial p-i-n NWs, if the nanowires are tilted from the substrate, much of the incident light can be directly absorbed by the active region without passing through the p(n) region, and thus greatly enhance the absorption of the active region and raise the efficiency. Inclined SiNWs with growth direction of <110> and <112> on <111> are simulated [108]. They showed better efficiency enhancement (4% and 3.87% respectively) than the vertical SiNWs solar cells (3.41%).…”

Section: Tilted Sinws Versus Vertically Aligned Sinwsmentioning

confidence: 99%

Design and fabrication of silicon nanowires towards efficient solar cells

et al. 2016

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The recent rise of semiconductor nanowires opens new opportunities for realizing high efficiency photovoltaic devices at low cost due to the unique one-dimensional structure with remarkable electrical and optical properties. Particularly, silicon nanowires (SiNWs), as one of the most earthabundant materials, have been investigated worldwide to develop cost-effective solar cells. Great efforts have been devoted to fabricating ordered/disordered SiNWs using cost-effective approaches and achieving optimized structural parameters, such as array periodicity, nanowire morphology, length and diameter. Systematic theoretical investigations along with experimental studies on optical and electrical properties of SiNWs have been carried out. These efforts have led to obtaining remarkable improvement of the power conversion efficiency of SiNW solar cells from <1% to >10% in the last few years. However, till now, the power conversion efficiency of these SiNW solar cells is far from satisfactory for any commercial applications compared with the traditional bulk silicon solar cells. Further development of SiNW solar cells requires better understanding of the optical and electrical properties of the nanowire solar cells. Improvement in fabrication of high quality nanowires in a controlled fashion also plays a significant role in nanowire solar cell design and fabrication. To guide future development of SiNW solar cells, the recent work on SiNWs is reviewed. Following that, various techniques aiming to achieve high quality nanowires at low cost are introduced. Both bottom-up and top-down techniques are discussed. Then, electrical properties and various types of solar cells based on SiNWs are discussed. Finally challenges and prospects of SiNW solar cells are presented.

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“…However, such resonators require a stringent temperature control, since the crystal plates themselves are affected by thermal expansion, which, in its turn, leads to a problem of non-stability in lattice parameter of the diffracting planes ( ) [29]. The absorption, and, consequently, the crystal plate heating problem are partially solved in [23], where, instead of a conventional cavity with normal incidence, the authors of paper [23] use an inclined incident beam along one of the multiple diffraction directions to generate back diffraction in a resonator cavity. To address to change in the angle of incidence, authors remove the absorption in the first crystal, in contradiction to conventional normal-incidence one-cavity FR resonators setup.…”

Section: Introductionmentioning

confidence: 99%

Planar Retro-Reflector for Grazing Incident Beam of High-Energy X-Ray Photons

Bezirganyan¹,

Bezirganyan²,

Bezirganyan³

2016

JAMP

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The grazing-incidence hard X-ray retro-reflector (GIRR) is a novel optical element, which completely suppresses the conventional mirror beam in the retro-reflection mode, and, at the same time, totally reflects the primary grazing incident X-radiation backwards to its source in strictly anti-parallel direction with minimal scattering. The GIRR is a good alternative to hard X-ray normal-incidence Bragg mirror, and has a high potential for applications in various X-ray optical devices and techniques, such as, hard X-ray optical noise (or background) filters, high-quality hard X-ray waveguides, low-gain hard X-ray free electron laser resonators (XFELRs), X-ray holography, coherent X-ray diffraction imaging, phase-contrast imaging, as well as in hard X-ray optical data storage devices and deep space hard X-ray communications. The proposed optical element consists of single-crystal wafer covered by a thin, non-diffracting layer of low-absorbing material.

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Inclined-incidence hard-X-ray resonator with ultrahigh efficiency and resolution

Cited by 5 publications

References 16 publications

Theoretical considerations in the construction of hard X-ray resonators at inclined incidence with ultra-high efficiency and resolution

Theoretical considerations in the construction of hard X-ray resonators at inclined incidence with ultra-high efficiency and resolution

Design and fabrication of silicon nanowires towards efficient solar cells

Planar Retro-Reflector for Grazing Incident Beam of High-Energy X-Ray Photons

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