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4. Low-dispersive silicon nitride waveguide resonators by nanoimprint lithography.

Author

Wang, Pei-Hsun, Zheng, He-Yuan, Liu, Yuan-Hsiu, Hou, Nien-Lin, Chen, Chien-Hung, Chen, Hung-Wen, and Wang, Chih-Ming

Subjects
NANOIMPRINT lithography, SILICON nitride, LITHOGRAPHY, RESONATORS, DISPERSION (Chemistry)
Abstract

In this study, we demonstrate the fabrication of waveguide resonators using nanoimprint technology. Without relying on traditionally costly lithography methods, such as electron-beam lithography or stepper lithography, silicon nitride (Si3N4) resonators with high-quality factors up to the order of 105 can be realized at C-band by nanoimprint lithography. In addition, by properly designing the waveguide geometry, a low-dispersive waveguide can be achieved with waveguide dispersion at around −35 ps/nm/km in the normal dispersion regime, and the waveguide dispersion can be further tuned to be 29 ps/nm/km in the anomalous dispersion regime with the polymer cladding. The tunability of nanoimprinted devices is demonstrated by the aid of microheaters, realizing on-chip optical functionalities. This work offers the potential to fabricate low-dispersive waveguide resonators for integrated modulators and filters in a significantly cost-effective and process-friendly scheme. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Continuously tunable middle-IR bandpass filters based on gradient metal-hole arrays for multispectral sensing and thermography.

Author

Chernomyrdin, N. V., Lavrukhin, D. V., Ulitko, V. E., Galiev, R. R., Gavdush, A. A., Anzin, V. B., Perov, A. N., Katyba, G. M., Tuchin, V. V., Skorobogatiy, M., Reshetov, I. V., Ponomarev, D. S., and Zaytsev, K. I.

Subjects
BANDPASS filters, THERMOGRAPHY, MAXWELL equations, SPECTRAL sensitivity, MULTISPECTRAL imaging
Abstract

Continuously tunable middle-infrared bandpass filters have been developed based on gradient metal-hole arrays with two distinct geometries. The rotation filter relies on an array of metal holes with gradually changing periods and hole sizes in the azimuthal direction, while the translation filter exploits a metal-hole array with a linear gradient. The filters are fabricated in a Ti film on a ZnSe substrate using electron-beam nanolithography. They are characterized experimentally using Fourier-transform infrared spectroscopy, and the observed results are compared with numerical predictions of the finite element method. The developed filters offer wide spectral tunability when operating with a focused beam. Particularly, the central wavelength of the transmission band is tunable in the λ c ∈ (9 , 15) μ m range, for the rotation filter, and in the λ c ∈ (8 , 13) μ m range for the translation one, as a linear function of the filter angular or linear displacement. The filters feature relatively broad bandwidths of Δ λ ≃ 0.2 λ c , while their spectral contrast and energy efficiency depend on the gradient type. The filter spectral response function shape and the extent of its spectra tunability can be further optimized by judicious design of the hole geometry and the metal-hole array gradient, respectively. The developed filters hold strong potential in the infrared multispectral sensing and imaging, thanks to their conceptual simplicity. Considering the linearity of Maxwell's equations and availability of appropriate technologies for the fabrication of gradient arrays of sub-wavelength metal holes, the developed concept can be translated to other spectral ranges. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Modeling of Lasers Based on the Stimulated Raman Scattering Effect in Special Tellurite Fibers and Microresonators.

Author

Anashkina, E. A. and Andrianov, A. V.

Abstract

Lasers of different classes based on the stimulated Raman scattering (SRS) effect in waveguide elements from tellurite glasses with a power from tens of microwatts to tens of watts are theoretically studied. Due to high SRS gain and large SRS frequency shift, tellurite glasses are promising materials for the development of laser sources at a wavelength of nearly 2.3 m under pumping at a wavelength of nearly 2 m. The detailed numerical modeling of SRS lasers based on special single-core and multicore tellurite fibers is performed. It is shown that, at optimal parameters, the efficiency of pumping power conversion into SRS wave power may exceed 50%. The detailed modeling of low-power lasers based on high-Q microresonators is carried out to find optimal parameters and generation limiting factors. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Economic viability of a large vessel mesopelagic fishery under ecological uncertainty.

Author

Vastenhoud, Berthe M. J., Bastardie, Francois, Andersen, Ken H., Speirs, Douglas C., and Nielsen, J. Rasmus

Subjects
FISHERIES, MESOPELAGIC zone, FISH mortality, FUEL tanks, ENERGY consumption, FUEL costs
Abstract

Motivated by the global rise in demand for marine products, there is increased interest in exploitation of the mesopelagic zone. However, the feasibility of this potential fishery remains uncertain, partly due to limited biological data and knowledge on sustainability of exploitation, and due to questions related to its economic viability. Consequently, there is a demand for better insights into these factors before any commencement of a fishery. Here we use the DISPLACE individual-vessel based bio-economic model to evaluate economic and biological trade-offs of a fishery on Maurolicus muelleri and Benthosema glaciale, the main potential target fish species in the mesopelagic zone of the Northeast Atlantic. We found that a fish price between 1.6-5.0 €/kg is necessary for mesopelagic resources to assure a profitable mesopelagic fishery, which is twice that expected for species with similar fat content. These high fish prices are necessary to cover the high fuel consumption costs due to the distant fishing grounds. Furthermore, the distance of the fishing grounds makes the fuel tank capacity a limiting factor for the fishery. A first evaluation of preliminary harvest control strategies indicated that a low fishing mortality of F = 0.2 year-1 resulted in the highest potential profitability of the fishery. Restriction of gear mesh sizes did not significantly affect the profitability of the fishery. We show that the current ecological uncertainties, especially regarding the life-history, species-specific and spatio-temporal abundance and distribution estimates have a significant impact on the estimates of potential viability of the fishery. It is therefore of the utmost importance to gain more insights in those factors before investments are made into the development of such fishery. [ABSTRACT FROM AUTHOR]

Published
2023
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9. A globalized robust preemptive goal programming method for marine reserve problem with eco-economy tradeoffs and multiple uncertainties.

Author

Jia, Ruru, Gao, Jinwu, and Zou, Zezhou

Abstract

"Blue growth" emphasizes the sustainable use of marine resources for economic process whereas conserving the health of marine ecosystems. Motivated by this, we focus on the marine reserve design problem under multiple uncertainties, incorporating conservation, economy, reserve area and reserve shape compactness. We develop a novel globalized robust preemptive goal programming model to investigate the problem, where inner-outer uncertainty sets are defined to model the uncertain conservation value and opportunity cost. We thereby derive the tractable globalized robust counterpart of the proposed model and perform the model analysis on the globalized sensitivity parameters. Our proposed optimization framework can be demonstrated for the marine reserve design of West Coast National Marine Park of Qingdao in China. The computational experiments justify several important insights: (i) the resulting reserve area design is more robust than the delimitation of 2014 on the West Coast New Area; (ii) with the change of parameters related to uncertainty sets and global sensitivity, the conservation value can always be realized while the opportunity cost is sensitive; (iii) the comparison results with classic robust optimization method show that the proposed method can reduce the conservatism of decisions and enable planners to formulate more effective policy. [ABSTRACT FROM AUTHOR]

Published
2023
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10. The role of intraoperative extensor digitorum brevis muscle MEPs in spinal surgery.

Author

Costa, Paolo, Borio, Alessandro, Marmolino, Sonia, Turco, Cristina, Serpella, Domenico, della Cerra, Elena, Cipriano, Elia, and Ferlisi, Salvatore

Subjects
INTRAOPERATIVE monitoring, SPINAL surgery, EVOKED potentials (Electrophysiology), TIBIALIS anterior, MOTOR neurons, OPERATIVE surgery
Abstract

Purpose: Intraoperative muscle motor evoked potentials (m-MEPs) are widely used in spinal surgery with the aim of identifying a damage to spinal cord at a reversible stage. Generally, lower limb m-MEPs are recorded from abductor hallucis [AH] and the tibialis anterior [TA]. The purpose of this work is to study an unselected population by recording the m-MEPs from TA, AH and extensor digitorum brevis (EDB), with the aim of identifying the most adjustable and stable muscles responses intraoperatively. Methods: Transcranially electrically induced m-MEPs were intraoperative recorded in a total of 107 surgical procedures. m-MEPs were recorded by a needle electrode placed in the muscle from TA, AH and EDB muscles in the lower extremities. Results: Overall monitorability (i.e., at least 1 Lower Limb m-MEP recordable) was 100/107 (93.5%). In the remaining 100 surgeries in 3 cases, the only muscle that could be recorded at baseline was one AH, and in other 2 the EDB. Persistence (i.e., the recordability of m-MEP from baseline to the end of surgery) was 88.7% for TA, 89.8% for AH and 93.8% for EDB. Conclusion: In our series, EDB m-MEPs have demonstrated a recordability superior to TA and a stability similar to AH. The explanations may be different and range from changes in the excitability of the cortical motor neuron to the different sensitivity to ischemia of the spinal motor neuron. EDB can be used alternatively or can be added to TA and AH as a target muscle of the lower limb in spinal surgery. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Reconfigurable slow light in phase change photonic crystal waveguide.

Author

Rongzi Wang and Tun Cao

Subjects
PHOTONIC crystals, REVERSIBLE phase transitions, CHALCOGENIDE glass, LIGHT propagation, GROUP velocity, PHASE change materials
Abstract

Experimental demonstration of light propagation with ultralow group velocity, i.e., slow light, allows for revolutionary solutions for time-domain processing and buffering of optical signals. It can spatially compress optical energy, which lessens the device footprint and enhances linear and nonlinear optical effects. Photonic crystal waveguides (PCWs) are appealing for producing slow light since they can be on-chip integrated and operated under room temperature. However, most PCW slow-light devices are restricted to the narrow spectral range of material resonance, leading to a small delay-bandwidth product, which restricts the maximum data rate, operation frequency, and storage capacity. Furthermore, the lack of broadly tunable slow light hinders practical applications in tunable photonic devices. We propose a reconfigurable slow-light device using a PCW based on a prototypical chalcogenide glass, Ge2Sb2Te5 (GST225) to solve the problems. We find that the operating wavelength of the slow light within the structure can be reversibly switched between 3575 and 4905 nm by changing the structural state of GST225 between amorphous and crystalline ones. The corresponding average group indices are 40.8 and 54.4, respectively. We experimentally illustrate that the reversible phase transition of GST225 between amorphous and crystalline ones can be realized in nanoseconds. Our proof of concept may provide a platform for actively engineering slow light that might otherwise be difficult to obtain in photonic systems. We expect it to improve the device performance in the fields of nonlinearity and sensing. [ABSTRACT FROM AUTHOR]

Published
2020
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15. Two‐Photon Polymerization Lithography for Optics and Photonics: Fundamentals, Materials, Technologies, and Applications.

Author

Wang, Hao, Zhang, Wang, Ladika, Dimitra, Yu, Haoyi, Gailevičius, Darius, Wang, Hongtao, Pan, Cheng‐Feng, Nair, Parvathi Nair Suseela, Ke, Yujie, Mori, Tomohiro, Chan, John You En, Ruan, Qifeng, Farsari, Maria, Malinauskas, Mangirdas, Juodkazis, Saulius, Gu, Min, and Yang, Joel K. W.

Subjects
OPTICS, LITHOGRAPHY, OPTICAL elements, MATERIALS science, POLYMERIZATION, PHOTONICS, DIFFRACTIVE optical elements
Abstract

The rapid development of additive manufacturing has fueled a revolution in various research fields and industrial applications. Among the myriad of advanced 3D printing techniques, two‐photon polymerization lithography (TPL) uniquely offers a significant advantage in nanoscale print resolution, and has been widely employed in diverse fields, for example, life sciences, materials sciences, mechanics, and microfluidics. More recently, by virtue of the optical transparency of most of the resins used, TPL is finding new applications in optics and photonics, with nanometer to millimeter feature dimensions. It enables the minimization of optical elements and systems, and exploration of light‐matter interactions with new degrees of freedom, never possible before. To review the recent progress in the TPL related optical research, it starts with the fundamentals of TPL and material formulation, then discusses novel fabrication methods, and a wide range of optical applications. These applications notably include diffractive, topological, quantum, and color optics. With a panoramic view of the development, it is concluded with insights and perspectives of the future development of TPL and related potential optical applications. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Impact of multimodal intraoperative neurophysiological monitoring of the spinal cord during spine and spinal cord surgeries.

Author

Elwakil, Walaa, Imam, Mohamed, Hassan, Marwa, Elsaadany, Waleed, and Gaber, Omnia

Subjects
SPINAL cord surgery, SPINAL surgery, EVALUATION of medical care, IATROGENIC diseases, RISK assessment, INTRAOPERATIVE monitoring, DISEASE risk factors, EVALUATION
Abstract

Background: There is growing evidence of the valuable role of multimodal intraoperative neurophysiological monitoring (IONM) during spine and spinal cord surgeries, as it provides an opportunity to recognize functional changes of the neural elements, usually in the reversible stage, during complex surgical manipulations. Therefore, it may reduce the risk of postoperative neurological dysfunction and improve functional outcomes. The aim of the current study was to evaluate the efficacy of multimodal IONM for preventing and predicting iatrogenic neurological dysfunction during spinal cord and spine surgeries. Results: Significant alerts had occurred in 9 out of 24 patients; however, all the changes were reversible and did not contribute to postoperative clinical deterioration. Only one case got worsened in the early postoperative follow-up period, with stable intraoperative monitoring. Conclusion: Intraoperative monitoring is a valuable tool in spine and spinal cord surgeries. Combined transcranial motor-evoked potential (TcMEP), somatosensory-evoked potential (SSEP), and spontaneous electromyography (EMG) monitoring may prevent permanent motor deficit and enhance the postoperative outcomes. [ABSTRACT FROM AUTHOR]

Published
2023
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18. The carrying capacity of the seas and oceans for future sustainable food production: Current scientific knowledge gaps.

Author

van der Meer, Jaap, Callier, Myriam, Fabi, Gianna, van Hoof, Luc, Nielsen, J. Rasmus, and Raicevich, Saša

Subjects
SCIENTIFIC knowledge, SUSTAINABILITY, FOOD production, MESOPELAGIC zone, FISH populations, COASTAL zone management
Abstract

The expected increase in global food demand, as a consequence of a rising and wealthier world population, and an awareness of the limits and drawbacks of modern agriculture, has resulted in a growing attention to the potential of the seas and oceans to produce more food. The capture production of presently exploited marine fish stocks and other species has more or less reached its maximum and can only be slightly improved by better management. This leaves four alternative options open to increase marine food production: (1) manipulating the entire food web structure via removal of high trophic level species to allow an increasing exploitation of low trophic level species, (2) harvesting so far unexploited stocks, such as various fish species from the mesopelagic zone of the ocean or the larger zooplankton species from polar regions, (3) low‐trophic mariculture of seaweeds and herbivorous animals, and (4) restoration of impoverished coastal ecosystems or artificially increasing productivity by ecological engineering. In this paper, we discuss these four options and pay attention to missing scientific knowledge needed to assess their sustainability. To assess sustainability, it is a prerequisite to establish robust definitions and assessments of the biological carrying capacity of the systems, but it is also necessary to evaluate broader socio‐economic and governance sustainability. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Frailty as a Superior Predictor of Dysphagia and Surgically Placed Feeding Tube Requirement After Anterior Cervical Discectomy and Fusion Relative to Age.

Author

Naftchi, Alexandria F., Vellek, John, Stack, Julia, Spirollari, Eris, Vazquez, Sima, Das, Ankita, Greisman, Jacob D., Stadlan, Zehavya, Tarawneh, Omar H., Zeller, Sabrina, Dominguez, Jose F., Kinon, Merritt D., Gandhi, Chirag D., Kazim, Syed Faraz, Schmidt, Meic H., and Bowers, Christian A.

Abstract

Frailty is a measure of physiological reserve that has been demonstrated to be a discriminative predictor of worse outcomes across multiple surgical subspecialties. Anterior cervical discectomy and fusion (ACDF) is one of the most common neurosurgical procedures in the United States and has a high incidence of postoperative dysphagia. To determine the association between frailty and dysphagia after ACDF and compare the predictive value of frailty and age. 155,300 patients with cervical stenosis (CS) who received ACDF were selected from the 2016–2019 National Inpatient Sample (NIS) utilizing International Classification of Disease, tenth edition (ICD-10) codes. The 11-point modified frailty index (mFI-11) was used to stratify patients based on frailty: mFI-11 = 0 was robust, mFI-11 = 1 was prefrail, mFI-11 = 2 was frail, and mFI-11 = 3 + was characterized as severely frail. Demographics, complications, and outcomes were compared between frailty groups. A total of 155,300 patients undergoing ACDF for CS were identified, 33,475 (21.6%) of whom were frail. Dysphagia occurred in 11,065 (7.1%) of all patients, and its incidence was significantly higher for frail patients (OR 1.569, p < 0.001). Frailty was a risk factor for postoperative complications (OR 1.681, p < 0.001). Increasing frailty and undergoing multilevel ACDF were significant independent predictors of negative postoperative outcomes, including dysphagia, surgically placed feeding tube (SPFT), prolonged LOS, non-home discharge, inpatient death, and increased total charges (p < 0.001 for all). Increasing mFI-11 score has better prognostic value than patient age in predicting postoperative dysphagia and SPFT after ACDF. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Thermally Drawn Elastomer Nanocomposites for Soft Mechanical Sensors.

Author

Leber, Andreas, Laperrousaz, Stella, Qu, Yunpeng, Dong, Chaoqun, Richard, Inès, and Sorin, Fabien

Subjects
NANOCOMPOSITE materials, SOFT robotics, DETECTORS, POLYMER melting, PRESSURE sensors, POLYANILINES, POLYMERIC nanocomposites, POLYURETHANE elastomers, ELASTOMERS
Abstract

Stretchable and conductive nanocomposites are emerging as important constituents of soft mechanical sensors for health monitoring, human–machine interactions, and soft robotics. However, tuning the materials' properties and sensor structures to the targeted mode and range of mechanical stimulation is limited by current fabrication approaches, particularly in scalable polymer melt techniques. Here, thermoplastic elastomer‐based nanocomposites are engineered and novel rheological requirements are proposed for their compatibility with fiber processing technologies, yielding meters‐long, soft, and highly versatile stretchable fiber devices. Based on microstructural changes in the nanofiller arrangement, the resistivity of the nanocomposite is tailored in its final device architecture across an entire order of magnitude as well as its sensitivity to strain via tuning thermal drawing processing parameters alone. Moreover, the prescribed electrical properties are coupled with suitable device designs and several fiber‐based sensors are proposed aimed at specific types of deformations: i) a robotic fiber with an integrated bending mechanism where changes as small as 5° are monitored by piezoresistive nanocomposite elements, ii) a pressure‐sensing fiber based on a geometrically controlled resistive signal that responds with a sub‐newton resolution to changes in pressing forces, and iii) a strain‐sensing fiber that tracks changes in capacitance up to 100% elongation. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Setting thresholds for good ecosystem state in marine seabed systems and beyond.

Author

Hiddink, J G, Valanko, S, Delargy, A J, and van Denderen, P D

Subjects
OCEAN bottom, ADAPTIVE natural resource management, TIME series analysis, ECOLOGICAL integrity, BIOMASS, MARINE biodiversity
Abstract

One of the aims of environmental management is to achieve good ecosystem state. Assessing the state needs to be informed by thresholds above which state is defined as "good" for both the quality that defines good state, and the extent of the habitat that needs to be in such a quality. Operationalizing such thresholds has been carried out using a wide variety of approaches, with, often, haphazard and subjective outcomes. Here, we review approaches for setting "good-state" thresholds and evaluate their strengths and weaknesses for application to marine seabed ecosystems. Only two approaches defined a current ecologically meaningful good state and estimated thresholds quantitatively from data, while two other approaches ("avoid collapse" and "allow recovery") would result in a state that could recover to good in the future. Other methods were subjective in the choice of threshold or based on statistically detectable thresholds rather than thresholds between good and not good or degraded state. We argue that the most objective method for setting a good-state threshold is based on maintaining the state within the range of natural variation in undisturbed systems. Preliminary time-series analyses of marine seabed community biomass suggest this threshold is located between 54 and 79% of the undisturbed state. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Integrating economics into fisheries science and advice: progress, needs, and future opportunities.

Author

Thébaud, O, Nielsen, J R, Motova, A, Curtis, H, Bastardie, F, Blomqvist, G E, Daurès, F, Goti, L, Holzer, J, Innes, J, Muench, A, Murillas, A, Nielsen, R, Rosa, R, Thunberg, E, Villasante, S, Virtanen, J, Waldo, S, Agnarsson, S, and Castilla Espino, D

Subjects
FISHERY sciences, MARINE sciences, FISHERIES, MARINE resources, FISHERY management, FISHERY policy
Abstract

While the science supporting fisheries management has generally been dominated by the natural sciences, there has been a growing recognition that managing fisheries essentially means managing economic systems. Indeed, over the past seven decades, economic ideas and insights have increasingly come to play a role in fisheries management and policy. As an illustration of this, the International Council for the Exploration of the Sea (ICES) has been actively seeking to expand the scope of its scientific expertise beyond natural sciences [another inter-governmental marine science organization which has done this over the same period is the North Pacific Marine Science organization (PICES)]. In particular, the recently created ICES Working Group on Economics set out to review current work and key future needs relating to economic research and management advice on marine capture fisheries. This article presents the results of this review and addresses how economic research can be incorporated into the science of ICES to provide integrated perspectives on fisheries systems that can contribute to the provision of advice in support of policy development and management decision-making for sustainable uses of living marine resources. [ABSTRACT FROM AUTHOR]

Published
2023
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23. A Universal Approach to High‐Index‐Contrast Flexible Integrated Photonics.

Author

Chen, Zequn, Shi, Yilin, Wei, Maoliang, Luo, Ye, Ma, Hui, Tang, Renjie, Weng, Yang, Dai, Hao, Zhong, Chuyu, Sun, Chunlei, Wang, Lichun, Si, Ke, Gong, Wei, Lin, Hongtao, and Li, Lan

Subjects
PHOTONICS, OPTICAL materials, OPTICAL interconnects, SILICON nitride films, SILICON nitride, OXYGEN plasmas, TITANIUM oxides
Abstract

Flexible integrated photonics is an essential technology for emerging applications, including flexible optical interconnects, optogenetic stimulation, and implantable conformal sensing. Here, a novel and universal route for fabricating flexible photonic components with high‐refractive‐index contrast is reported. Central to such a unique method is the utilization of germanium oxide (GeO) as the sacrificial layer for releasing nanostructures from rigid substrates to flexible substrates. Various high‐quality inorganic optical materials can be grown directly on GeO by different thin‐film deposition methods due to its resistance to both high temperature and high‐power oxygen plasmas. In addition to the absence of restrictions on the material choices and integration processes for flexible photonic structures, the approach uses water as the etchant to remove the sacrificial layer, which has minimal impact on the optical performance of the photonic structures. Using this approach, a strain‐insensitive/sensitive microring resonator based on plasma‐enhanced chemical vapor deposited silicon nitride and reactive sputtered titanium oxide, respectively, is demonstrated, establishing the strategy as a facile and universal route for the fabrication of high‐index‐contrast flexible integrated photonic devices with various functionalities. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Insights into the fabrication of sub-100 nm textured thermally drawn fibers.

Author

Nguyen Dang, Tung, Richard, Inès, Goy, Etienne, Sordo, Federica, and Sorin, Fabien

Subjects
FIBERS, ISOTHERMAL processes, FLUID dynamics, THERMOPLASTICS, MICROCHANNEL plates, SURFACE texture, POLYMERS
Abstract

The preform-to-fiber thermal drawing process has been recently proposed for the fabrication of fibers and microchannels with submicrometer surface textures. To better control the final architecture and reach small feature size down to tens of nanometers however, a proper understanding and modeling of the fluids dynamics at play during the fabrication of the texture is needed. Here, we present an analytical model describing comprehensively the reflow of periodic polymer micropatterns of arbitrary shape in isothermal annealing as well as in a fiber drawing process. Experiments on square-grooved thermoplastic plates subjected to both treatments show excellent agreement with the calculated theoretical values. Based on this model, we could identify a strategy and the corresponding materials to fabricate sub-100 nm surface-patterned fibers. These results deepen the understanding and control of thermal-based approaches for polymer surface texturing and open novel opportunities for textured fibers and microchannels in bioengineering, microfluidics, or smart textiles. [ABSTRACT FROM AUTHOR]

Published
2019
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26. Prospective Comparative Study of Dysphagia after Subaxial Cervical Spine Surgery: Cervical Spondylotic Myelopathy and Posterior Longitudinal Ligament Ossification.

Author

Sakaki, Kyohei, Sakai, Kenichiro, Arai, Yoshiyasu, Torigoe, Ichiro, Tomori, Masaki, Hirai, Takashi, Onuma, Hiroaki, Kobayashi, Yutaka, Okawa, Atsushi, and Yoshii, Toshitaka

Subjects
CERVICAL spondylotic myelopathy, LONGITUDINAL ligaments, CERVICAL vertebrae, OSSIFICATION, DISEASE risk factors
Abstract

We prospectively investigated the postoperative dysphagia in cervical posterior longitudinal ligament ossification (C-OPLL) and cervical spondylotic myelopathy (CSM) to identify the risk factors of each disease and the incidence. A series of 55 cases with C-OPLL: 13 anterior decompression with fusion (ADF), 16 posterior decompression with fusion (PDF), and 26 laminoplasty (LAMP), and a series of 123 cases with CSM: 61 ADF, 5 PDF, and 57 LAMP, were included. Vertebral level, number of segments, approach, and with or without fusion, and pre and postoperative values of Bazaz dysphagia score, C2-7 lordotic angle (∠C2-7), cervical range of motion, O-C2 lordotic angle, cervical Japanese Orthopedic Association score, and visual analog scale for neck pain were investigated. New dysphagia was defined as an increase in the Bazaz dysphagia score by one grade or more than one year after surgery. New dysphagia occurred in 12 cases with C-OPLL; 6 with ADF (46.2%), 4 with PDF (25%), 2 with LAMP (7.7%), and in 19 cases with CSM; 15 with ADF (24.6%), 1 with PDF (20%), and 3 with LAMP (1.8%). There was no significant difference in the incidence between the two diseases. Multivariate analysis demonstrated that increased ∠C2-7 was a risk factor for both diseases. [ABSTRACT FROM AUTHOR]

Published
2023
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27. The Role of Intraoperative Neuromonitoring Modalities in Anterior Cervical Spine Surgery.

Author

Chandra, Akhil Avunoori, Vaishnav, Avani, Shahi, Pratyush, Song, Junho, Mok, Jung, Alluri, R. Kiran, Chen, Darren, Gang, Catherine Himo, and Qureshi, Sheeraz

Abstract

Background: Intraoperative neuromonitoring (IONM) is frequently used during spine surgery to mitigate the risk of neurological injuries. Yet, its role in anterior cervical spine surgery remains controversial. Without consensus on which anterior cervical spine surgeries would benefit the most from IONM, there is a lack of standardized guidelines for its use in such procedures. Purpose: We sought to assess the alerts generated by each IONM modality for 4 commonly performed anterior cervical spinal surgeries: anterior cervical diskectomy and fusion (ACDF), anterior cervical corpectomy and fusion (ACCF), cervical disk replacement (CDR), or anterior diskectomy. In doing so, we sought to determine which IONM modalities (electromyography [EMG], motor evoked potentials [MEP], and somatosensory evoked potentials [SSEP]) are associated with alert status when accounting for procedure characteristics (number of levels, operative level). Methods: We conducted a retrospective review of IONM data collected by Accurate Neuromonitoring, LLC, a company that supports spine surgeries conducted by 400 surgeons in 8 states, in an internally managed database from December 2009 to September 2018. The database was queried for patients who underwent ACCF, ACDF, anterior CDR, or anterior diskectomy in which at least 1 IONM modality was used. The IONM modalities and incidence of alerts were collected for each procedure. The search identified 8854 patients (average age, 50.6 years) who underwent ACCF (n = 209), ACDF (n = 8006), CDR (n = 423), and anterior diskectomy (n = 216) with at least 1 IONM modality. Results: Electromyography was used in 81.3% (n = 7203) of cases, MEP in 64.8% (n = 5735) of cases, and SSEP in 99.9% (n = 8844) of cases. Alerts were seen in 9.3% (n = 671), 0.5% (n = 30), and 2.7% (n = 241) of cases using EMG, MEP and SSEP, respectively. In ACDF, a significant difference was seen in EMG alerts based on the number of spinal levels involved, with 1-level ACDF (6.9%, n = 202) having a lower rate of alerts than 2-level (10.0%, n = 272), 3-level (15.2%, n = 104), and 4-level (23.4%, n = 15). Likewise, 2-level ACDF had a lower rate of alerts than 3-level and 4-level ACDF. A significant difference by operative level was noted in EMG use for single-level ACDF, with C2-C3 having a lower rate of use than other levels. Conclusions: This retrospective review of anterior cervical spinal surgeries performed with at least 1 IONM modality found that SSEP had the highest rate of use across procedure types, whereas MEP had the highest rate of nonuse. Future studies should focus on determining the most useful IONM modalities by procedure type and further explore the benefit of multimodal IONM in spine surgery. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Λογοτεχνία για παιδιά και οντολογικός επαναπροσδιορισμός του υλικού κόσμου. Ο φιλοσοφικός λόγος και η εικονοποιητική μεταφορά ως μέσα για τη διάσπαση της διχοτόμησης φύσης-πολιτισμού.

Author

Αγγελάκη, Ρόζη-Τριανταφυλλι&#9

Abstract

n the context of the global mobilization for a new, ethical approach to the environment, Children’s Literature authors attempted to instill in young readers a post-humanist philosophy, distanced from the ontological and epistemological assumptions that perceive humans as the sole shapers of the world. Based on the premise that illustration serves aesthetic, educational and practical purposes, authors often choose to rely on the text-picture synergy, as well as the close link of iconicity and metaphor, in order to help their readers embed the values of Environmental Ethics and to appreciate Nature. For the purposes of this article, a picture book and a nonfiction informational illustrated book for children that demonstrate the relationship between human bodies and the non-human world through the rizhomatic concept were used as a sample. It is examined which of the two genres succeeds in imparting complex concepts concerning Being and the Ecosystem to children more effectively, helping them to make connections between their Self and Nature. The image-text relationship, the ideological background of the authors and illustrators and whether they took into account the cognitive ability and experience of their readers will be investigated. Additionally, metaphors, tropes and figural language will be also examined, in order to explore the connections between arguments and metaphors and the role of metaphor in the philosophical discourse. [ABSTRACT FROM AUTHOR]

Published
2023
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29. The relevance of the wake‑up test in scoliosis surgery: A narrative review.

Author

Nikhar, Sapna Annaji, Patro, Abinash, Iyengar, Raju, and Gopinath, Ramachandran

Subjects
SCOLIOSIS, INTRAOPERATIVE monitoring, NEUROPHYSIOLOGIC monitoring, EVOKED potentials (Electrophysiology), SPINAL cord, KEYWORD searching, SURGERY
Abstract

The corrective scoliosis surgery is associated with many complications; the neurologic complication is one of them. It is very important to assess spinal cord integrity intraoperatively to avoid postoperative damage and have a good outcome. Wake-up test was the standard of care in old generations but now with the availability of advanced neurophysiologic monitoring somatosensory and motor-evoked potentials; the relevance of wake-up test is questionable. This review aimed to assess the relevance of wake-up test in scoliosis surgery with availability of advanced technology. Comprehensive literature search was performed in PubMed, Google Search and Scopus, EndNote X6 version, and the keywords used for the search were scoliosis, neurophysiologic monitoring, and wake-up test. The different study results were interpreted to come to conclusion. This review gives us a detailed idea of the different tests available and pitfalls with each and finally what should be our stand. The review highlighted the good collaboration between surgeon, anesthesiologist, and neurologist to conclude the results of the tests of neurophysiologic monitoring. Intraoperative neurologic monitoring improves postoperative outcome. Wake-up test is only and strongly recommended, in case of unavailability of advanced monitoring, confusion on test results, and persistent signal reduction. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Enhanced Light–Tellurium Interaction through Evanescent Wave Coupling for High Speed Mid‐Infrared Photodetection.

Author

Ma, Hui, Wu, Jianghong, Wang, Yunpeng, Zhong, Chuyu, Ye, Yuting, Wei, Maoliang, Yu, Rui, Du, Yiqing, Tang, Bo, Sun, Cheng, Shi, Yilin, Sun, Chunlei, Wang, Lichun, Zhu, Haiming, Qiao, Xvsheng, Li, Lan, and Lin, Hongtao

Subjects
TELLURIUM compounds, OPTICAL communications, CRYSTAL orientation, CHARGE carrier mobility, SPEED, PHOTODETECTORS, COMPLEMENTARY metal oxide semiconductors, WAVEGUIDES
Abstract

Mid‐infrared (MIR) waveguide‐integrated photodetector is essential for various applications in the fields of sensing and optical communications. However, it is challenging to integrate traditional MIR photoactive materials such as HgCdTe or III−V compounds with complementary metal‐oxide‐semiconductor (CMOS)‐compatible silicon platform due to the lattice mismatch. Tellurium (Te), a novel van der Waals (vdW) material with a narrow bandgap, high carrier mobility, and great air stability, is a promising candidate for high‐performance MIR detection. Here, high‐quality Te nanosheets are synthesized using a hydrothermal method and their carrier dynamics are characterized by transient reflection spectrum. The effect of mobility anisotropy on response speed is investigated intuitively by a free space phototransistor. Combining the strong evanescent wave of a waveguide architecture with the synergy effect between the carrier collection path and the highest mobility crystal orientation in Te, an integrated Te photodetector with enhanced light–matter interaction and reduced carrier transit time is achieved. For the first time, the MIR waveguide‐integrated Te photodetector with a responsivity of 2.3 A W−1 and a bandwidth of 4 GHz at 2015 nm is realized, which is the highest speed MIR photodetector based on narrow bandgap vdW materials to date. [ABSTRACT FROM AUTHOR]

Published
2022
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33. A Systematic Review of Definitions for Dysphagia and Dysphonia in Patients Treated Surgically for Degenerative Cervical Myelopathy.

Author

Tetreault, Lindsay, Lange, Stefan F., Chotai, Silky, Lupo, Mercedes, Kryshtalskyj, Michael T., Wilson, Jefferson R., Martin, Allan R., Davies, Benjamin M., Nater, Anick, Devin, Clinton, and Fehlings, Michael G.

Abstract

Study Design: Systematic review. Surgical decompression for degenerative cervical myelopathy (DCM) is associated with perioperative complications, including difficulty or discomfort with swallowing (dysphagia) as well as changes in sound production (dysphonia). This systematic review aims to (1) outline how dysphagia and dysphonia are defined in the literature and (2) assess the quality of definitions using a novel 4-point rating system. Methods: An electronic database search was conducted for studies that reported on dysphagia, dysphonia or other related complications of DCM surgery. Data extracted included study design, surgical details, as well as definitions and rates of surgical complications. A 4-point rating scale was developed to assess the quality of definitions for each complication. Results: Our search yielded 2,673 unique citations, 11 of which met eligibility criteria and were summarized in this review. Defined complications included odynophagia (n = 1), dysphagia (n = 11), dysphonia (n = 2), perioperative swelling complications (n = 2), and soft tissue swelling (n = 3). Rates of dysphagia varied substantially (0.0%-50.0%) depending on whether this complication was patient-reported (4.4%); patient-reported using a modified Swallowing Quality of Life questionnaire (43.1%) or the Bazaz criteria (8.8%-50.0%); or diagnosed using an extensive protocol consisting of clinical assessment, a bedside swallowing test, evaluation by a speech and language pathologist and a modified barium swallowing test/fiberoptic endoscopy (42.9%). The reported incidences of dysphonia also ranged significantly from 0.6% to 38.0%. Conclusion: There is substantial variability in reported rates of dysphagia and dysphonia due to differences in data collection methods, diagnostic strategies, and definitions. Consolidation of nomenclature will improve evaluation of the overall safety of surgery. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Reconfigurable Parfocal Zoom Metalens.

Author

Yang, Fan, Lin, Hung‐I, Shalaginov, Mikhail Y., Stoll, Katherine, An, Sensong, Rivero‐Baleine, Clara, Kang, Myungkoo, Agarwal, Anuradha, Richardson, Kathleen, Zhang, Hualiang, Hu, Juejun, and Gu, Tian

Subjects
ZOOM lenses, PHASE change materials, TRANSLATIONAL motion, INTRAOCULAR lenses
Abstract

Zoom lenses with variable focal lengths and magnification ratios are essential for many optical imaging applications. Conventional zoom lenses are composed of multiple refractive optics, and optical zoom is attained via translational motion of one or more lens elements, which adds to module size, complexity, and cost. In this paper, a zoom lens design based on multi‐functional optical metasurfaces is presented, which achieves large step zoom ratios, minimal distortion, and diffraction‐limited optical quality without requiring mechanical moving parts. Two embodiments of the concept are experimentally demonstrated based on polarization‐multiplexing in the visible and phase change materials in the mid‐infrared, both yielding 10× parfocal zoom in accordance with the design. [ABSTRACT FROM AUTHOR]

Published
2022
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35. High Refractive Index Chalcogenide Hybrid Inorganic/Organic Polymers for Integrated Photonics.

Author

Nishant, Abhinav, Kim, Kyung‐Jo, Showghi, Sasaan A., Himmelhuber, Roland, Kleine, Tristan S., Lee, Taeheon, Pyun, Jeffrey, and Norwood, Robert A.

Subjects
PHOTONICS, OPTICAL waveguides, POLYMERS, QUALITY factor, OPTICAL losses, OPTICAL bistability
Abstract

Optical polymer‐based integrated photonic devices are gaining interest for applications in optical packaging, biosensing, and augmented/virtual reality (AR/VR). The low refractive index of conventional organic polymers has been a barrier to realizing dense, low footprint photonic devices. The fabrication and characterization of integrated photonic devices using a new class of high refractive index polymers, chalcogenide hybrid inorganic/organic polymers (CHIPs), which possess high refractive indices and lower optical losses compared to traditional hydrocarbon‐based polymers, are reported. These optical polymers are derived from elemental sulfur via the inverse vulcanization process, which allows for inexpensive monomers to be used for these materials. A facile fabrication strategy using CHIPs via lithography is described for single‐mode optical waveguides, Y junction splitters, multimode interferometers (MMIs), and high Q factor ring resonators, along with device characterization. Furthermore, propagation losses of 0.4 dB cm−1 near 1550 nm wavelength, which is the lowest measured loss in non‐fluorinated optical polymer waveguides, coupled with the benefits of low cost materials and manufacturing are reported. Ring resonators with Q factor on the order of 6 × 104 and cavity finesse of 45, which are some of the highest values reported for optical polymer‐based ring resonators, are also reported. [ABSTRACT FROM AUTHOR]

Published
2022
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36. Infrared Photodetectors Based on 2D Materials and Nanophotonics.

Author

Zha, Jiajia, Luo, Mingcheng, Ye, Ming, Ahmed, Tanveer, Yu, Xuechao, Lien, Der‐Hsien, He, Qiyuan, Lei, Dangyuan, Ho, Johnny C., Bullock, James, Crozier, Kenneth B., and Tan, Chaoliang

Subjects
PHOTODETECTORS, INFRARED detectors, NANOPHOTONICS, OPTICAL resonators, OPTICAL waveguides, SUBSTRATE integrated waveguides
Abstract

2D materials, such as graphene, transition metal dichalcogenides, black phosphorus, and tellurium, have been demonstrated to be promising building blocks for the fabrication of next‐generation high‐performance infrared (IR) photodetectors with diverse device architectures and impressive device performance. Integrating IR photodetectors with nanophotonic structures, such as surface plasmon structures, optical waveguides, and optical cavities, has proven to be a promising strategy to maximize the light absorption of 2D absorbers, thus enhancing the detector performance. In this review, the state‐of‐the‐art progress of IR photodetectors is comprehensively summarized based on 2D materials and nanophotonic structures. First, the advantages of using 2D materials for IR photodetectors are discussed. Following that, 2D material‐based IR detectors are classified based on their composition, and their detection mechanisms, key figures‐of‐merit, and the principle of absorption enhancement are discussed using nanophotonic approaches. Then, recent advances in 2D material‐based IR photodetectors are reviewed, categorized by device architecture, i.e., photoconductors, van der Waals heterojunctions, and hybrid systems consisting of 2D materials and nanophotonic structures. The review is concluded by providing perspectives on the challenges and future directions of this field. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Reconciling the economic and biological fishery data gathered through the European Data Collection Framework: A new R-tool.

Author

Bitetto, Isabella, Malvarosa, Loretta, Berkenhagen, Jörg, Spedicato, Maria Teresa, Sabatella, Evelina, and Döring, Ralf

Subjects
VARIABLE costs, ACQUISITION of data, COST estimates, FISHERIES, ECONOMIC databases
Abstract

Fishing fleets and targeted stocks are the basis for the design of multiannual management plans at European or Mediterranean levels. Management Strategy Evaluation and bioeconomic modeling need data at a specific level of resolution in terms of time, area and type of fishing activity for analyzing measures for management procedures using simulations. Within the Data Collection Framework, data are to be aggregated at different levels, e.g.: fleet segment and métier, the former linked to the predominant gear and the size of the vessel and the latter to the activity itself. Fishing costs are collected by fleet segment, effort and landings by fleet segment and métier. Bioeconomic modeling for management purposes requires data at the same resolution. The aim of this paper is to describe a methodology, implemented in SECFISH R package, to disaggregate variable cost data from the fleet segment to the métier level. The presented tool allows to determine the correlation between the variable costs of a vessel and its activities to estimate costs at the activity level (e.g. métiers). The tool is applied to selected Italian fleet segments characterized by a variety of métiers and high dynamicity. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Post-Operative Dysphagia in Anterior Cervical Discectomy and Fusion.

Author

Haller, Leonard, Mehul Kharidia, Khush, Bertelsen, Caitlin, Wang, Jeffrey, and O'Dell, Karla

Subjects
SURGICAL complication risk factors, CERVICAL vertebrae, OTOLARYNGOLOGISTS, PREOPERATIVE care, CONFIDENCE intervals, SPINAL fusion, DEGLUTITION disorders, DISEASE incidence, DISCECTOMY, MEDICAL referrals, DESCRIPTIVE statistics, ELECTRONIC health records, ODDS ratio, COMORBIDITY, LONGITUDINAL method, DISEASE risk factors
Abstract

Objective: We sought to identify risk factors associated with long-term dysphagia, characterize changes in dysphagia over time, and evaluate the incidence of otolaryngology referrals for patients with long-term dysphagia following anterior cervical discectomy with fusion (ACDF). Methods: About 56 patients who underwent ACDF between May 2017 to February 2019 were included in the study. All patients were assessed for dysphagia using the Eating Assessment Tool (EAT-10) survey preoperatively and late postoperatively (≥1 year). Additionally, 28 patients were assessed for dysphagia early postoperatively (2 weeks—3 months). Demographic data, medical comorbidities, intraoperative details, and post-operative otolaryngology referral rates were collected from electronic medical records. Results: Of the 56 patients enrolled, 21 patients (38%) had EAT-10 scores of 3 or more at long-term follow-up. None of the demographics, comorbidities, or surgical factors assessed were associated with long-term dysphagia. Patients who reported no long-term dysphagia had a mean EAT-10 score of 6.9 early postoperatively, while patients with long-term symptoms had a mean score of 18.1 (P =.006). Of the 21 patients who reported persistent dysphagia symptoms, 3 (14%) received dysphagia testing or otolaryngology referrals post-operatively. Conclusion: Dysphagia is a notable side effect of ACDF surgery, but there are no significant demographics, comorbidities, or surgical risk factors that predict long-term dysphagia. Early postoperative characterization of dysphagia using the EAT-10 questionnaire can help predict long-term symptoms. There is inadequate screening and otolaryngology follow-up for patients with post-ACDF dysphagia. [ABSTRACT FROM AUTHOR]

Published
2022
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40. The effect of local intraoperative corticosteroid application on postoperative dysphagia following anterior cervical spine surgery.

Author

Cheng, Lei, Guan, Jian, Zhang, Can, Ma, Longbing, Yao, Qingyu, Wang, Kai, Liu, Zhenlei, Duan, Wanru, Jian, Fengzeng, Wu, Hao, and Chen, Zan

Subjects
SPINAL surgery, CERVICAL vertebrae, DEGLUTITION disorders, ESOPHAGEAL perforation, CORTICOSTEROIDS, EDEMA
Abstract

Dysphagia is a common complication following anterior cervical spine surgery (ACSS). Although several literatures have reported the potential benefit of local corticosteroid application on dysphagia, its safety and efficacy are still unclear. A systematic review was performed aiming to evaluate the evidence of local corticosteroid application in prevention or treatment of postoperative dysphagia following ACSS. A systematic search was performed in September 2018 in PubMed and Embase database. The following information was extracted: study investigator, year of publication, number of patients, study design, inclusion/exclusion criteria, administration protocol of steroid, type of surgical procedure, number of levels performed, assessment methodology of dysphagia, radiologic assessment of prevertebral soft tissue swelling (PSTS), follow-up time points, outcome of dysphagia, and corticosteroid-related complications. Qualitative synthesis was performed. Finally, 5 studies met the inclusion/exclusion criteria. Four studies found that local corticosteroid application could decrease the incidence and magnitude of postoperative dysphagia while 1 study showed no effect on dysphagia significantly at 6 weeks and 3 months follow-up time. A total of 2325 patients received local corticosteroid intraoperatively; no early corticosteroid-related complication was reported. Totally, 4 adverse events occurred in long-term follow-up time, including 2 bone nonunion at 1.5 and 2.5 years postoperatively, 2 esophageal perforation at 2 months and 11 months of follow-up, respectively. Local corticosteroid application can reduce the incidence and severity of dysphagia following ACSS without increasing early corticosteroid-related complications. But further high-quality study is necessary to analyze potential delayed complications. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Ultrasound prediction for vocal cord dysfunction in patients scheduled for anterior cervical spine surgeries: a prospective cohort study.

Author

Kamel, Alshaimaa Abdel Fattah, Amin, Olfat Abdelmoniem Ibrahem, Hassan, Mohyieldin Abdou Mohyieldin Moustafa, Elmesallamy, Wael Abd Elrahman Ali, and Hassan, Elham Magdy

Abstract

Prediction of vocal cord dysfunction is essential after anterior cervical spine surgeries. This study aimed to detect the validity of transcutaneous laryngeal ultrasonography by both anterior and novel lateral approaches for prediction of vocal cord edema and paralysis after anterior cervical spine surgeries. A prospective cohort study conducted on 90 patients scheduled for anterior cervical spine surgeries underwent consecutive pre and postoperative vocal cord examination for edema and paralysis by both anterior and lateral approaches laryngeal ultrasonography. Rigid laryngoscopy was the standard confirmatory tool. For postoperative vocal cord edema, the anterior ultrasonography approach diagnostic sensitivity = 88.2%, specificity = 78.9% with PPV = 78.9% and NPV = 88.2% and the novel lateral ultrasonography approach diagnostic sensitivity = 88.2%, specificity = 94.7% with PPV = 93.75% and NPP = 90%. While for paralysis, the anterior ultrasonography approach diagnostic sensitivity = 86.7%, specificity = 85.7% with PPV = 81.25% and NPV = 90% and the novel lateral ultrasonography approach diagnostic (sensitivity, specificity with PPV and NPP) = 100%. The diagnostic accuracy of the novel lateral approach was more correlated to rigid laryngoscopy (91.7% and 100%) compared to anterior approach for vocal cord edema and paralysis (83.3% and 80.6%). Overall incidence of vocal cord paralysis was 16.6%. Risk of vocal cord paralysis was statistically significant more in female, multiple disc herniation, lower and mixed disc levels, Langenbeck retractor, cage and plate and duration of surgery ≥ 1.5 h. Transcutaneous Laryngeal ultrasound is a valid comfortable tool for prediction of vocal cord edema and paralysis after anterior cervical spine surgeries with superiority of the novel lateral over anterior approach. [ABSTRACT FROM AUTHOR]

Published
2021
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46. Single-cycle all-fiber frequency comb.

Author

Xing, Sida, Lesko, Daniel M. B., Umeki, Takeshi, Lind, Alexander J., Hoghooghi, Nazanin, Wu, Tsung-Han, and Diddams, Scott A.

Subjects
LIGHT sources, NONLINEAR optics, SILICA fibers
Abstract

Single-cycle pulses with a deterministic carrier-envelope phase enable the study and control of light–matter interactions at the sub-cycle timescale, as well as the efficient generation of low-noise multi-octave frequency combs. However, current single-cycle light sources are difficult to implement and operate, hindering their application and accessibility in a wider range of research. In this paper, we present a single-cycle 100 MHz frequency comb in a compact, turnkey, and reliable all-silica-fiber format. This is achieved by amplifying 2 µm seed pulses in heavily doped Tm:fiber, followed by cascaded self-compression to yield 6.8 fs pulses with 215 kW peak power and 374 mW average power. The corresponding spectrum covers more than two octaves, from below 700 up to 3500 nm. Driven by this single-cycle pump, supercontinuum with 180 mW of integrated power and a smooth spectral amplitude between 2100 and 2700 nm is generated directly in silica fibers. To broaden applications, few-cycle pulses extending from 6 µm to beyond 22 µm with a long-term stable carrier-envelope phase are created using the intra-pulse difference frequency, and electro-optic sampling yields comb-tooth-resolved spectra. Our work demonstrates the first all-fiber configuration that generates single-cycle pulses and provides a practical source to study nonlinear optics on the same timescale. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Exploring the Optical Bound State in the Continuum in a Dielectric Grating Coupled Plasmonic Hybrid System.

Author

Joseph, Shereena, Sarkar, Swagato, Khan, Sunny, and Joseph, Joby

Subjects
BOUND states, HYBRID systems, DIELECTRICS, OPTICAL properties, RESONANCE, QUALITY factor, COUPLED mode theory (Wave-motion)
Abstract

The bound state in the continuum (BIC) explores the extraordinary optical properties of a system possessing wave characteristics that gained recent importance for practical applications, including lasing, sensing, optical tweezing, nonlinear interactions, and many more. Unlike a pure optical or plasmonic system, a hybrid architecture with coupled photonic–plasmonic characteristics can offer the intermittent resonant modes for suitable applications. Therefore, BIC modes are investigated here in such a photonic–plasmonic hybrid structure made up of a dielectric sinusoidal grating deposited on a flat metal layer via low‐cost fabrication methods. Such a design has not been subjected to the investigation of BIC formation so far. The structure‐supported resonant modes are numerically studied by analyzing the reflection characteristics in the parametric space. The Friedrich–Wintgen bound state (FW‐BIC) is produced by the interference of distinct resonance channels, further resulting in a quasi‐BIC hybrid mode revealed in the parametric sweep. An additional angular scan demonstrates the intrinsic symmetry‐protected BIC (SP‐BIC), and its hybridization with a plasmonic mode results in a distinct FW‐BIC mode and a quasi‐BIC hybrid mode. The experimentally obtained spectral characteristics in the angular resolved scan between 5 to 20 degrees verify the quasi‐BIC hybrid modes with good quality factors and enhanced field confinement. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Two‐Dimensional Materials for Integrated Photonics: Recent Advances and Future Challenges.

Author

Wu, Jianghong, Ma, Hui, Yin, Peng, Ge, Yanqi, Zhang, Yupeng, Li, Lan, Zhang, Han, and Lin, Hongtao

Abstract

With the development of novel optoelectronic materials and nanofabrication technologies, integrated photonics is a rapidly developing field that will promote the development and application of next‐generation photonic devices. In recent years, emerging two‐dimensional materials (2DMs) including graphene, transition metal dichalcogenides (TMDCs), black phosphorus (BP), and ternary compounds show many complementarities and unique characteristics over those of traditional optoelectronic materials including broadband absorption, ultrafast carrier mobility, strong nonlinear effects, and compatibility for monolithic integration. Herein, the recent progress on waveguide‐integrated active devices for a full photonic circuit based on 2DMs is reviewed. Both the development of nanofabrication techniques and the working mechanism of active photonic components based on 2DMs containing integrated light sources, waveguide‐integrated modulators, photodetectors, as well as some advanced 2DMs‐based optoelectronic devices are illustrated in detail. In the end, the existing challenges and perspectives on novel 2DMs‐integrated photonics are summarized and discussed. [ABSTRACT FROM AUTHOR]

Published
2021
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