Structural and optical properties of MOCVD AllnN epilayers

7] M.-Y. Ryu, C.Q. Chen, E. Kuokstis, J.W. Yang, G. Simin, M. Asif Khan, Appl. Phys. Lett. 80 (2002) 3730. [8] D. Xu, Y. Wang, H. Yang, L. Zheng, J. Li, L. Duan, R. Wu, Sci. China (a) 42 (1999) 517. [9] H. Hirayama, A. Kinoshita, A. Hirata, Y. Aoyagi, Phys. Stat. Sol. (a) 188 (2001) 83. [10] Y. Chen, T. Takeuchi, H. Amano, I. Akasaki, N. Yamada, Y. Kaneko, S.Y. Wang, Appl. Phys. Lett. 72 (1998) 710. [11] Ig-Hyeon Kim, Hyeong-Soo Park, Yong-Jo Park, Taeil Kim, Appl. Phys. Lett. 73 (1998) 1634. [12] K. Watanabe, J.R. Yang, S.Y. Huang, K. Inoke, J.T. Hsu, R.C. Tu, T. Yamazaki, N. Nakanishi, M. Shiojiri, Appl. Phys. Lett. 82 (2003) 718

Memories from the 13th World Congress of Music Therapy

Includes memories from: Gro Trondalen, Alan Turry, Joseph Moreno, Rajam Shanker, Jin-Hyung Lee, SuJeong Kim, Ng Wang Feng, Melanie Kwan, Kana Okazaki-Sakaue, Nancy Jackson, Ayako Konishi, Jana J. Skrien Koppula, Roberta Kagin, Joreal Chen, HaeSun Kim

Su Hyun Kim, Piano

Sonata C Major Hob: HVI:48 / J. Haydn; Rhapsodie Espagnole S. 254 / F. Liszt; Piano Concerto No. 3 Op. 26 / S. Prokofie

Big Data Analytics in the Internet-Of-Things And Cyber-Physical Systems

Lv, Z.; Song, H.; Lloret, J.; Kim, D.; De Souza, J. (2019). Big Data Analytics in the Internet-Of-Things And Cyber-Physical Systems. IEEE Access. 7:18070-18075. https://doi.org/10.1109/ACCESS.2019.2895441S1807018075

Physician-prescribed Asthma Treatment Regimen does not differ Between Smoking and Non-smoking Patients With Asthma in Seoul and Gyunggi province of Korea

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. ACKNOWLEDGMENTS The authors thank Lauren Weisenfluh and Melissa Stauffer, PhD, in collaboration with SCRIBCO, for medical writing assistance. Funding for this research was provided by Merck & Co., Inc. The authors also wish to thank Eric Maiese and Sharlette Everett for their contributions to the design and implementation of the study and the analytic plan. The authors would also like to thank the study investigators who contributed to patient enrollment and data collection: Drs. Young Il Hwang (Hallym University Sacred Heart Hospital), Young Min Ye (Ajou University Medical Center), Joo Hee Kim (Ajou University Medical Center), Heung Woo Park (Seoul National University Hospital), Tae Wan Kim (Seoul National University Hospital), Jae Jeong Shim (Korea University Guro Hospital), Gyu Young Hur (Korea University Guro Hospital), Soo Taek Uh (SoonChunHyang University Hospital), Sang Ha Kim (Wonju Christian Hospital), Myoung Kyu Lee (Wonju Christian Hospital), Soo Keol Lee (Dong-A Medical Center), Jin Hong Chung (Yeungnam University Medical Center), Kyu Jin Kim (Yeungnam University Medical Center), Young Koo Jee (Dankook University Hospital), Kyung Mook Kim (Dankook University Hospital), Young Il Koh (Chonnam National University Hospital), Cheol Woo Kim (Inha university Hospital), You Sook Cho (Seoul Asan Medical Center), Tae Bum Kim (Seoul Asan Medical Center), Jae Myung Lee (Myeong Internal Medicine), Young Mok Lee (Good Friends Internal Medicine), Bong Chun Lee (Namsan Hospital), So Yoen Park (A&A Clinic).Peer reviewedPublisher PD

Spring Dance Concert 1998 Playbill

Providence College Department of Theatre, Dance & Film \u2764 Hall Slavin Center Spring Dance Concert 1998 Saturday & Sunday, March 21 & 22, 1998 Choreography: Marty Sprague, Kim Marcoccio, Wendy Oliver, Michelle Brien, Jennifer Wiley, Gretchen Hummrich, Elizabeth J. Ramos, Danielle Wall, Sally Mayo, Deirdre Morris, Leanne Deneault Dancers: Carla Arena, Michelle Brien, Leanne Deneault, Gretchen Hummrich, Elizabeth J. Ramos, Nicole Pelaggi-Dyer, Sarah Wade, Sara Beaverstock, Christie Jacobs, Elizabeth Judge, Kim Marcoccio, Kara McNamara, Monique Ouimette, Karen Skoog, Mary Teresa Soltis, Jennifer Wiley, Kimberly Errato, Laura Haberkorn, Monique Plourde, Brooke Sullivan, Danielle Wall, Corey Delaney, Deirdre Morrishttps://digitalcommons.providence.edu/sdc_1998_pubs/1004/thumbnail.jp

A direct proof of Kim's identities

As a by-product of a finite-size Bethe Ansatz calculation in statistical mechanics, Doochul Kim has established, by an indirect route, three mathematical identities rather similar to the conjugate modulus relations satisfied by the elliptic theta constants. However, they contain factors like $1 - q^{\sqrt{n}}$ and $1 - q^{n^2}$, instead of $1 - q^n$. We show here that there is a fourth relation that naturally completes the set, in much the same way that there are four relations for the four elliptic theta functions. We derive all of them directly by proving and using a specialization of Weierstrass' factorization theorem in complex variable theory.Comment: Latex, 6 pages, accepted by J. Physics

First detection of 22 GHz H2O masers in TX Camelopardalis

Simultaneous time monitoring observations of H$_{2}$O $6_{16}-5_{23}$, SiO $J$ = 1--0, 2--1, 3--2, and $^{29}$SiO $v$ = 0, $J$ = 1--0 lines were carried out in the direction of the Mira variable star TX Cam with the Korean VLBI Network single dish radio telescopes. For the first time, the H$_{2}$O maser emission from TX Cam was detected near the stellar velocity at five epochs from April 10, 2013 ($\phi$ = 3.13) to June 4, 2014 ($\phi$ = 3.89) including minimum optical phases. The intensities of H$_{2}$O masers are very weak compared to SiO masers. The variation of peak antenna temperature ratios among SiO $v$ = 1, $J$ = 1--0, $J$ = 2--1, and $J$ = 3--2 masers is investigated according to their phases. The shift of peak velocities of H$_{2}$O and SiO masers with respect to the stellar velocity is also investigated according to observed optical phases. The H$_{2}$O maser emission occurs around the stellar velocity during our monitoring interval. On the other hand, the peak velocities of SiO masers show a spread compared to the stellar velocity. The peak velocities of SiO $J$ = 2--1, and $J$ = 3--2 masers show a smaller spread with respect to the stellar velocity than those of SiO $J$ = 1--0 masers. These simultaneous observations of multi-frequencies will provide a good constraint for maser pumping models and a good probe for investigating the stellar atmosphere and envelope according to their different excitation conditions.Comment: 10 page

A note on q-nanlogue of Sandor's functions

The additive analogues of Pseudo-Smarandache, Smarandache-simple functions and their duals have been recently studied by J. Sandor. In this note, we obtain q-analogues of Sandor's theorems

Diseño racional de nanoreactores sensibles a estímulos

La catálisis mediante nanopartículas metálicas es uno de los campos de mayor crecimiento en nanociencia [1]. Sin embargo, el control óptimo de la actividad y selectividad catalíticas con nanopartículas sigue siendo un gran desafío científico. En esta charla mostramos cómo obtener reglas de diseño para la optimización de la catálisis con nanopartículas (en medio acuoso) mediante nanoreactores sensibles a estímulos. Dichos nanoreactores consisten en nanopartículas catalíticamente activas encapsuladas en una cubierta polimérica sensible a estímulos. Dicha cubierta no sólo previene la agregación de las nanopartículas, sino que, mediante su permeabilidad, controla la actividad catalítica del proceso [2-5]. Las propiedades físico-químicas de la nanocubierta polimérica (típicamente compuesta de microgeles) hacen que ésta reaccione a estímulos externos, permitiendo así que los flujos de reactantes (y por tanto la velocidad de reacción) puedan ser controlados, por ejemplo, mediante la temperatura, concentración de electrolito, o composición del solvente [2-5]. De esta forma, el novedoso carácter híbrido de los nanoreactores proporciona medios sin precedentes para el control de la nanocatálisis gracias a la aparición de nuevos grados de libertad. Mediante modelado teórico y simulación en múltiples escalas [5-7], ofrecemos una compresión teórica y principios de diseño racional en sistemas de nanoreactores. [1] M. A. C. Stuart et al., Nat. Mater. 9, 101 (2010). [2] S. Wu, J. Dzubiella, J. Kaiser, M. Drechsler, X. Guo, M. Ballauff, and Y. Lu, Angewandte Chemie 51, 2229 (2012). [3] H. Jia, R. Roa, S. Angioletti-Uberti, K. Henzler, A. Ott, X. Lin, J. Möser, Z. Kochovski, A. Schnegg, J. Dzubiella, M. Ballauff, Y. Lu, J. Mater. Chem. A 4, 9677 (2016). [4] S. Angioletti-Uberti, Y. Lu, M. Ballauff, and J. Dzubiella, J. Phys. Chem. C 119, 15723 (2015). [5] R. Roa, W. K. Kim, M. Kanduč, J. Dzubiella, and S. Angioletti-Uberti, ACS Catal. 7, 5604 (2017). [6] W. K. Kim, A. Moncho-Jordá, R. Roa, M. Kanduč, and J. Dzubiella, Macromolecules, 50, 6227 (2017). [7] M. Kanduč, R. Chudoba, K. Palczynski, W. K. Kim, R. Roa, and J. Dzubiella, Phys. Chem. Chem. Phys. 19, 9705 (2017).Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech. Dpto. de Física Aplicada I y Vicerrectorado de Investigación y Transferencia Universidad de Málag