Trans-tendon suture bridge rotator cuff repair with tenotomized pathologic biceps tendon augmentation in high-grade PASTA lesions.

Purpose: The purpose of this study was to evaluate whether trans-tendon suture bridge repair with tenotomized pathologic biceps tendon augmentation improves mid-term clinical outcomes for high-grade partial articular-sided supraspinatus tendon avulsion (PASTA) lesions or not.

Methods: A retrospective review of a consecutive series of arthroscopic trans-tendon suture bridge repair with tenotomized pathologic biceps tendon augmentation was conducted. Total 115 patients (44 men and 71 women) with minimum 2 years follow-up were enrolled in our study.

Non-fracture stem vs fracture stem of reverse total shoulder arthroplasty in complex proximal humeral fracture of asian elderly.

Purpose: Fracture stem of the reverse total shoulder arthroplasty (RTSA) was designed for better tuberosity bone healing for the proximal bone defect of complex proximal humeral fractures (PHF). Our purpose was to compare the clinical and radiological outcomes of patients using fracture stem vs non-fracture (conventional) stem of RTSA in complex PHF of elderly patients.

Methods: Between 2008 March and 2017 June, 48 patients who had undergone an RTSA with non-fracture or fracture stem for complex PHF with a minimum 18 months of follow-up were evaluated.

Enhanced High Performance of a Metasurface Polarizer Through Numerical Analysis of the Degradation Characteristics.

This study focuses on the experimental and numerical investigations for the degradation characteristics of a metasurface polarizer. The metasurface has a stacked complementary structure that exhibits a high extinction ratio of the order of 10,000 in the near-infrared region. However, its performance has significantly degraded over time.

High-performance metasurface polarizers with extinction ratios exceeding 12000.

High-performance ultrathin polarizers have been experimentally demonstrated employing stacked complementary (SC) metasurfaces, which were produced using nanoimprint lithography. It is experimentally determined that the metasurface polarizers composed of Ag and Au have large extinction ratios exceeding 17000 and 12000, respectively, in spite of the subwavelength thickness. It is also shown that the ultrathin polarizers of the SC structures are optimized at telecommunication wavelengths.

Selective Plasmonic Enhancement of Electric- and Magnetic-Dipole Radiations of Er Ions.

Lanthanoid series are unique in atomic elements. One reason is because they have 4f electronic states forbidding electric-dipole (ED) transitions in vacuum and another reason is because they are very useful in current-day optical technologies such as lasers and fiber-based telecommunications. Trivalent Er ions are well-known as a key atomic element supporting 1.

The artificial control of enhanced optical processes in fluorescent molecules on high-emittance metasurfaces.

Plasmon-enhanced optical processes in molecules have been extensively but individually explored for Raman scattering, fluorescence, and infrared light absorption. In contrast to recent progress in the interfacial control of hot electrons in plasmon-semiconductor hybrid systems, plasmon-molecule hybrid systems have remained to be a conventional scheme, mainly assuming electric-field enhancement. This was because it was difficult to control the plasmon-molecule interface in a well-controlled manner.

Overcoming metal-induced fluorescence quenching on plasmo-photonic metasurfaces coated by a self-assembled monolayer.

We have experimentally shown significant suppression of metal-induced fluorescence (FL) quenching on plasmo-photonic metasurfaces by incorporating a self-assembled monolayer (SAM) of sub-nm thickness. The FL signals of rhodamine dye molecules have been several-ten-fold enhanced by introducing the SAM, in comparison with the previous configuration contacting molecules and metal surfaces.

Ultraviolet-nanoimprinted packaged metasurface thermal emitters for infrared CO sensing.

Packaged dual-band metasurface thermal emitters integrated with a resistive membrane heater were manufactured by ultraviolet (UV) nanoimprint lithography followed by monolayer lift-off based on a soluble UV resist, which is mass-producible and cost-effective. The emitters were applied to infrared CO sensing. In this planar Au/AlO/Au metasurface emitter, orthogonal rectangular Au patches are arrayed alternately and exhibit nearly perfect blackbody emission at 4.

Heteroplasmon hybridization in stacked complementary plasmo-photonic crystals.

We constructed plasmo-photonic crystals in which efficient light-trapping, plasmonic resonances couple with photonic guided resonances of large density of states and high-quality factor. We have numerically and experimentally shown that heteroplasmon hybrid modes emerge in stacked complementary (SC) plasmo-photonic crystals. The resonant electromagnetic-field distributions evidence that the two hybrid modes originate from two different heteroplasmons, exhibiting a large energy splitting of 300 meV.