Your search keyword '"Arkhipov, Mikhail"' showing total 32 results

1. Coherent mode locking in a two-section laser with fast gain and absorber

Author

Arkhipov, Rostislav, Diachkova, Olga, Pakhomov, Anton, Arkhipov, Mikhail, Rosanov, Nikolay, Zhmud, Bogdan, and Khabibullin, Rustam

Published

2024

2. Outcomes with Finerenone in Participants with Stage 4 CKD and Type 2 Diabetes: A FIDELITY Subgroup Analysis

Author

Sarafidis, Pantelis, Agarwal, Rajiv, Pitt, Bertram, Wanner, Christoph, Filippatos, Gerasimos, Boletis, John, Tuttle, Katherine R., Ruilope, Luis M., Rossing, Peter, Toto, Robert, Anker, Stefan D., Liu, Zhi-Hong, Joseph, Amer, Ahlers, Christiane, Brinker, Meike, Lawatscheck, Robert, Bakris, George, Aizenberg, Diego, Bartolacci, Inés, Besada, Diego, Bittar, Julio, Chahin, Mariano, Elbert, Alicia, Gelersztein, Elizabeth, Liberman, Alberto, Maffei, Laura, Manghi, Federico Pérez, Sanabria, Hugo, Vallejos, Augusto, Viñes, Gloria, Wassermann, Alfredo, Abhayaratna, Walter, Acharya, Shamasunder, Ekinci, Elif, Lee, Darren, MacIsaac, Richard, Mah, Peak Mann, Nelson, Craig, Packham, David, Pape, Alexia, Roger, Simon, Stephenson, Hugo, Suranyi, Michael, Wittert, Gary, Vale, Elizabeth, Colman, Peter, Colquhoun, David, Ellis, Chris, Joshua, Kim, Pedagogos, Eugenia, Regal, Paul, Topliss, Duncan, Vandeleur, James, Verjans, Johan, Wittert, Gary, Wynne, Katie-Jane, Clodi, Martin, Ebenbichler, Christoph, Fliesser-Görzer, Evelyn, Hanusch, Ursula, Krebs, Michael, Lhotta, Karl, Ludvik, Bernhard, Mayer, Gert, Neudorfer, Peter, Paulweber, Bernhard, Prager, Rudolf, Preiß, Wolfgang, Prischl, Friedrich, Schernthaner, Gerit-Holger, Sourij, Harald, Wiesholzer, Martin, Drexel, Heinz, Oberbauer, Rainer, Schönherr, Hans-Robert, Doubel, Peter, Engelen, Wendy, Gillard, Pieter, Hougardy, Jean-Michel, Krzesinski, Jean-Marie, Maes, Bart, Speeckaert, Marijn, Stas, Koen, van Gaal, Luc, Vanbelleghem, Hilde, Duyck, Francis, Scheen, André, Antunes, Daniela, Botelho, Roberto, Brito, Claudia, Canani, Luis, Canziani, Maria Eugenia, Cerqueira, Maria, de Paula, Rogerio, Eliaschewitz, Freddy, Figueiredo, Carlos Eduardo, Forti, Adriana, Hissa, Miguel, Leite, Emerson Lima Maurilo, Jr, Noronha, Irene, Paolino, Bruno, Paschoalin, Nathalia, Paschoalin, Raphael, Filho, Roberto Pecoits, Pereira, Marcio, Portes, Evandro, Precoma, Dalton, Rea, Rosangela, Riella, Miguel, Salles, Joao Eduardo, Vasconcellos, Eduardo, Vencio, Sergio, Bacci, Marcelo, Maia, Lilia, Villacorta, Aline, Apostolova, Emiliya, Boshnyashka, Radostina, Farah, Ghassan, Georgiev, Dimitar, Gushterova, Valentina, Klyuchkova, Neli, Lucheva, Mariya, Manova, Petya, Minkova, Dotska, Nonchev, Boyan, Pichmanova, Mariyana, Prakova, Zhulieta, Rangelov, Rangel, Rashkov, Rosen, Stanchev, Pavel, Stoyanovska-Elencheva, Bilyana, Tagarev, Zhivko, Temelkova-Kurktschieva, Theodora, Vasileva, Svetla, Yoncheva-Mihaylova, Mariana, Marinchev, Angel, Miteva, Mariya, Barre, Paul, Carlson, Brian, Conway, James, Cournoyer, Serge, Dumas, Richard, Fikry, Sameh, Goluch, Richard, Hamet, Pavel, Hart, Randolph, Henein, Sam, Liutkus, Joanne, Madore, Francois, Martinho, Valdemar, Mazza, Giuseppe, McFarlane, Philip, Keefe, Dennis O′, Peterson, Sean, Schwartz, Daniel, Shu, Daniel, Steele, Andrew, Tellier, Guy, Tennankore, Karthik, Tobe, Sheldon, Tsoukas, George, Tytus, Richard, Vitou, Louise, Walsh, Michael, Weisnagel, Stanley, Wilderman, Igor, Yale, Jean-Francois, El Boreky, Fadia, Kelly, Alan, Leiter, Lawrence, Teitelbaum, Ivor, Cobos, Jorge, Godoy, Juan, González, Fernando, Lobos, Sergio, Palma, Juan Carlos, Prieto Dominguez, Juan Carlos, Reyes, Eliana, Romero, Carmen, Saavedra, Victor, Vega, Mario, Medina, Marcelo, Varleta, Paola, Bu, Ruifang, Cai, Hanqing, Chen, Nan, Chen, Qinkai, Chen, Dejun, Cheng, Jinluo, Dong, Youping, Dong, Junwu, Guan, Tianjun, Hao, Chuanming, Huang, Wen, Jiang, Fangfang, Lei, Minxiang, Li, Ling, Li, Zhonghe, Li, Xuemei, Li, Jingmei, Li, Yan, Liang, Xinling, Liang, Bo, Liu, Fang, Liu, Yinghong, Liu, Yuantao, Liu, Zhihong, Long, Gang, Lu, Guoyuan, Lu, Weiping, Lu, Yibing, Luo, Ping, Ma, Jianhua, Mo, Zhaohui, Niu, Jianying, Peng, Ai, Shen, Jiansong, Shen, Feixia, Shi, Bingyin, Su, Qing, Sun, Zhuxing, Tang, Shuifu, Tong, Nanwei, Wang, Hao, Wang, Xinjun, Wang, Guixia, Wang, Jianqin, Wang, Yangang, Wang, Li, Wei, Jiali, Wu, Tianfeng, Wu, Chaoqing, Xing, Changying, Xiong, Fei, Xu, Xudong, Xu, Ning, Yan, Tiekun, Yang, Jinkui, Yin, Aiping, Zeng, Longyi, Zhang, Hao, Zhang, Yanlin, Zhang, Ying, Zhao, Wenjing, Zhao, Zhiquan, Zheng, Hongguang, Zhong, Ling, Zhu, Dalong, Zhuang, Yongze, Du, Yuming, Fang, Yi, Guo, Weiying, Jiang, Sheng, Kuang, Jian, Li, Dongmei, Li, Hongmei, Li, Yinan, Li, Yuxiu, Liu, Jian, Liu, Yu, Miao, Heng, Peng, Wen, Wang, Lihua, Xu, Mingtong, Zhong, Liyong, Zhu, Jun, Arango, Clara, Barrera, Sandra, López, Nelly Beltrán, Benitez, Diego, Blanco, Guillermo, Cadena, Andrés, Coronel, Julian, Cure, Carlos, Durán, Carlos, González, Alexander, Guzmán, Gustavo, Hernández, Eric, Ibarra, Jaime, Jaramillo, Carlos, Jaramillo, Nicolás, Kattah, William, Molina, Dora, Sánchez, Gregorio, Terront, Mónica, Trujillo, Freddy, Urina, Miguel, Vargas, Ruben, Villegas, Iván, Yupanqui, Hernán, Arcos, Edgar, Aroca, Gustavo, Barreto, Germán, Bermudez, Andres, Botero, Rodrigo, Cárdenas, Tatiana, Figueroa, Wilmer, Jaramillo, Mónica, Liévano, Manuel, López, Mónica, Molina, Dora, Rosero, Ricardo, Trillos, Pedro, Dino Alferi, Brada, Michal, Brezina, Jiri, Bucek, Petr, Edelsberger, Tomas, Gulakova, Drahomira, Zapletalova, Jitka Hasalova, Hola, Olga, Hornova, Lucie, Houdova, Jana, Hrmova, Helena, Karasek, David, Kopecka, Sarka, Kovar, Richard, Krcova, Eva, Kuchar, Jiri, Kutejova, Vlasta, Lubanda, Hana, Matyasek, Ivo, Mokrejsova, Magdalena, Okenka, Libor, Prazny, Martin, Pumprla, Jiri, Tomanek, Pavel, Andersen, Ulla, Andries, Alin, Bech, Jesper, Faber, Jens, Gislason, Gunnar, Hangaard, Jørgen, Pacyk, Grzegorz Jaroslaw, Juhl, Claus, Krarup, Thure, Lindhardt, Morten, Madsbad, Sten, Nielsen, Joan, Pedersen-Bjergaard, Ulrik, Poulsen, Per, Rasmussen, Ole, Rossing, Peter, Schousboe, Karoline, Gram, Jeppe, Lauridsen, Thomas, Pedersen, Erling, Thorsteinsson, Birger, Flöjt, Päivi, Honkasalo, Mikko, Honkasalo, Mikko, Humaloja, Kari, Kananen, Kristiina, Kantola, Ilkka, Koistinen, Arvo, Korsoff, Pirkko, Lahtela, Jorma, Nieminen, Sakari, Nieminen, Tuomo, Sadeharju, Karita, Strand, Jorma, Sulosaari, Sakari, Cariou, Bertrand, Chantrel, François, Clavel, Sylvaine, Combe, Christian, Fauvel, Jean-Pierre, Gallouj, Karim, Gouet, Didier, Guerci, Bruno, Guerrot, Dominique, Hourmant, Maryvonne, Klein, Alexandre, Mariat, Christophe, Marre, Michel, Mesbah, Rafik, Le Meur, Yannick, Monier, Arnaud, Moranne, Olivier, Roussel, Ronan, Serusclat, Pierre, Vendrely, Benoit, Verges, Bruno, Zaoui, Philippe, Axthelm, Christoph, Bergmann, Andreas, Birkenfeld, Andreas L., Braun, Hermann, Busch, Klaus, Contzen, Christel, Degenhardt, Stefan, Derwahl, Karl, Giebel, Thomas, Hagenow, Andreas, Haller, Hermann, Hasslacher, Christoph, Horacek, Thomas, Jungmair, Wolfgang, Kloos, Christof, Koch, Thorsten, Krüger, Thilo, Mühlfeld, Anja, Müller, Joachim, Pfützner, Andreas, Pistrosch, Frank, Rinke, Andrea, Rose, Ludger, Rump, Lars, Schettler, Volker, Schiefke, Ingolf, Schlichthaar, Heike, Schröppel, Bernd, Schöll, Norbert, Schubert, Kristin, Schürholz, Thomas, Sigal, Helena, Stemler, Lutz, Strack, Georg, Täschner, Heidrun, Toursarkissian, Nicole, Tschöpe, Diethelm, Ulmer, Achim, van der Giet, Markus, Wanner, Christoph, Winkelmann, Bernhard R., Boletis, Ioannis, Dimitriadis, George, Hatziagelaki, Erifili, Iatrou, Christos, Ioannidis, Ioannis, Kounadi, Theodora, Makriniotou, Ioanna, Papadopoulou, Dorothea, Papagianni, Aikaterini, Passadakis, Ploumis, Piaditis, George, Stefanidis, Ioannis, Tai Pang Ip, Lee, Paul, Andrea Luk, On Yan, Ma, Ronald, Chow, Wing Sun, Wang, Angela, Yeung, Vincent, Bajcsi, Dora, Danos, Peter, Harcsa, Eleonora, Kalina, Akos, Kazup, Szilvia, Keltai, Katalin, Kirschner, Robert, Kiss, Julianna, Kovacs, Laszlo, Lamboy, Beata, Literati-Nagy, Botond, Mileder, Margit, Nagy, Laszlo, Noori, Ebrahim, Nyirati, Gabor, Petro, Gizella, Schneider, Karoly, Simon, Judit, Szocs, Albert, Vasas, Szilard, Wudi, Krisztina, Zilahi, Zsolt, Zsom, Marianna, Eustace, Joe, Holian, John, Reddan, Donal, Meara, Yvonne O′, Abramof Ness, Rosane, Adawi, Faiad, Armaly, Zaher, Atar, Shaul, Bashkin, Amir, Ben Chetrit, Sydney, Yanay, Noa Berar, Chernin, Gil, Darawsha, Mahmud, Efrati, Shai, Elias, Mazen, Farber, Evgeny, Glandt, Mariela, Grossman, Ehud, Halabi, Majdi, Harman-Boehm, Ilana, Khazim, Khaled, Liberty, Idit, Minuchin, Oscar, Mosenzon, Ofri, Nakhoul, Farid, Nimer, Assy, Schwartz, Doron, Wainstein, Julio, Yagil, Yoram, Zukermann, Robert, Avogaro, Angelo, Battaglia, Giovanni Giorgio, Bevilacqua, Maurizio Tiziano, Bonora, Enzo, Bossi, Carlo Antonio, Calabrò, Paolo, Cavalot, Franco Luigi, Cimino, Roberto, Cozzolino, Mario Gennaro, David, Salvatore, Emdin, Michele, Fiaccadori, Enrico, Fiorina, Paolo, Giorda, Carlo Bruno, Gregorini, Maria Cristina, La Manna, Gaetano, Maggi, Davide Carlo, Manti, Roberta, Meregalli, Giancarla, Pani, Antonello, Parvanova, Aneliy Ilieva, Perico, Norberto, Piatti, PierMarco, Pisani, Antonio, Pontiroli, Antonio Ettore, Ponzani, Paola, Santorelli, Gennaro, Santoro, Domenico, Scanziani, Renzo, Teatini, Ugo, Tonolo, Giancarlo, Trevisan, Roberto, Veronelli, Anna Maria, Viviani, Giorgio Luciano, Araki, Hideo, Bando, Yukihiro, Ebisui, Osamu, Fujita, Naruhiro, Fukasawa, Hirotaka, Furuya, Ryuichi, Hamamoto, Yoshiyuki, Hamasaki, Akihiro, Hasegawa, Kotaro, Hatazaki, Masahiro, Hayashi, Terumasa, Higashi, Takayuki, Hirohata, Yoshihide, Horinouchi, Shuji, Hoshi, Ayumu, Imoto, Hirofumi, Inagaki, Akemi, Inagaki, Masayuki, Inaguma, Daijo, Inoue, Toshihiko, Ishii, Masao, Ishiko, Tamayo, Isono, Motohide, Jinnouchi, Hideaki, Kanai, Hidetoshi, Kanda, Daisuke, Kanehara, Hideo, Kashima, Masayuki, Kataoka, Yuko, Katayama, Shigehiro, Kato, Kiyoe, Katsuki, Takeshi, Kawamitsu, Katsunori, Kawasaki, Satsuki, Kikuchi, Fumi, Kikuchi, Hidetoshi, Kishimoto, Rui, Kobayashi, Kunihisa, Koide, Junko, Komi, Rieko, Kubota, Miyuki, Kuriya, Genpei, Kurose, Takeshi, Kusano, Yoshiro, Hajime, Maeda, Matsubayashi, Sunao, Matsumoto, Kazunari, Matsumura, Naoya, Matsuo, Yasuto, Matsuoka, Naoki, Miyaoka, Hiroaki, Miyata, Satoshi, Morita, Takeshi, Murakami, Isao, Murao, Satoshi, Nakamura, Udai, Nakayama, Mikihiro, Nakazawa, Jun, Nohara, Sakae, Nomiyama, Takashi, Noritake, Masayuki, Oda, Yoshiaki, Ogiwara, Takayuki, Ohashi, Hiroshi, Okamoto, Hideki, Okino, Shinichi, Osonoi, Takeshi, Sasaki, Nobuhiro, Sayo, Yoshitaka, Sekigami, Taiji, Shibasaki, Taro, Shibata, Hirotaka, Shimoyama, Tatsushi, Shinoda, Junji, Sobajima, Hiroshi, Sugitatsu, Kazuya, Sugiura, Toshiyuki, Sugiyama, Toru, Suzuki, Daisuke, Suzuki, Hiroyuki, Suzuki, Masaaki, Takeda, Asami, Tanaka, Asami, Tanaka, Seiichi, Tsunematsu, Izumi, Ueda, Yasuo, Uekihara, Soichi, Ujihara, Makoto, Yajima, Ken, Yamada, Daishiro, Yamada, Masayo, Yamagata, Kazuo, Yamakawa, Ken, Yamakawa, Fumiko, Yamasaki, Yoshimitsu, Yambe, Yuko, Yanagida, Taihei, Yanai, Hidekatsu, Yanase, Toshihiko, Yasuda, Tetsuyuki, Kriauciuniene, Dovile, Lasiene, Jurate, Navickas, Antanas, Radzeviciene, Lina, Urbanaviciene, Egle, Urbonas, Gediminas, Velaviciene, Audrone, Abd Ghani, Rohana, Aziz, Nor Azizah, Lee, Li Yuan, Loh, Chek Loong, Ali, Norhaliza Mohd, Noor, Nurain Mohd, Fatnoon Nik Ahmad, Nik Nur, Ratnasingam, Jeyakantha, Halimi Bin Wan Hasan, Wan Hasnul, Izani Wan Mohamed, Wan Mohd, Khir, Rizmy Najme, Mohamad, Masni, Alexander Tan, Tong Boon, Avila Pardo, Sandro, Adrian, Miriam Bastidas, Wong, Alfredo Chew, Escobedo de la Peña, Jorge, Salmón, Guillermo Fanghänel, Gálvez, Guillermo González, Ochoa, Ramiro Gutiérrez, Santana, Saúl Irizar, Rovalo, Magdalena Madero, Machado, Gustavo Méndez, Ruiz, Luis Nevarez, Ibarra, Denisse Ramos, López, Gabriel Ramos, Reyna, Leobardo Sauque, Ortiz, Gustavo Solache, Ortiz, Rafael Valdez, Mesa, Juan Villagordoa, Salazar, Melchor Alpizar, Hernández, Pedro García, González, José, Soto, José Lazcano, Mendoza, Arturo Saldaña, Santana, Sergio Irizar, Vilchis, Elvira González, Bakker, R.C., Barendregt, J.N.M., Boonstra, A.H., Bos, Willem, Brouwer, C.B., Buren, M. van, Gansevoort, Ron, Kooy, Adriaan, Krekels, Marielle, Leendert, Ruud J.M. van, Lieverse, Louis A.G., Luik, P.T., Penne, E. Lars, Gregoor, Peter Smak, Vogt, Liffert, Born, Bert-Jan van den, John Baker, Crawford, Veronica, Cutfield, Rick, Dunn, Peter, Krebs, Jeremy, Nirmalaraj, Kingsley, Scott, Russell, Smuts, Nine, Titchener, Janet, Eriksen, Erik, Finnes, Trine, Høivik, Hans, Karlsson, Thomas, Munk, Peter Scott, Radtke, Maria, Risberg, Knut, Rocke, Jan, Solnør, Leidulv, Stenehjem, Aud-Eldrid, Tafjord, Anne-Beathe, Asprusten, Emil, Hagemeier, Robert, Høye, Kjetil, Selsås, Hilde, Thorup, Frode, Wium, Cecilie, Pamugas, Glenda, Panelo, Araceli, Perez, Ronald, Tanque, Maribel, Tirador, Louie, Villa, Michael, Bautista, Albert, Catindig, Elizabeth, Manalo, Carlo, Mirasol, Roberto, Butrymowicz, Patrycja, Ciechanowski, Kazimierz, Cieslik, Grazyna, Franek, Edward, Gumprecht, Janusz, Hoffmann, Michal, Krzykowska, Jolanta, Kurnatowska, Ilona, Landa, Katarzyna, Madrzejewski, Adam, Madziarska, Katarzyna, Mazur, Stanislaw, Napora, Piotr, Nowicki, Michal, Ocicka-Kozakiewicz, Anna, Rewerska, Barbara, Rusicka, Teresa, Ruxer, Jan, Skokowska, Ewa, Stankiewicz, Andrzej, Stompor, Tomasz, Tiuryn-Petrulewicz, Agnieszka, Wasilewska, Katarzyna, Wierusz-Wysocka, Bogna, Wnetrzak-Michalska, Renata, Jedynasty, Krystyna, Anand, Izabela Sein, Almeida, Edgar, Ballesteros, Rosa, Barreto, Carlos, Beirao, Idalina, Birne, Rita, Esteves, Cesar, Guia, Jose, Heitor, Susana, Marques, Olinda, Melo, Pedro, Nolasco, Fernando, Pereira, Amalia, Roque, Cristina, Rosario, Francisco, Silva, Gil, Silva, Ana, Teixeira e Costa, Fernando, Lobos, Ana Vila, Alves, Ana Rita, Brandao, Ilidio, Carvalho, Rui, Coelho, Joao, Lourenco, Ana, Matos, Pedro, Rosario, Vanisa, Neves, Joao Sergio, Cortes-Maisonet, Gregorio, Roman-Miranda, Amaury, Brito-Peguero, Yudit, Colon-Vega, Gildred, Albota, Adrian, Bala, Cornelia, Barbonta, Hortensia, Caceaune, Elena, Catrinoui, Doina, Constantin, Ciprian, Dumitrescu, Adriana, Mindrescu, Nicoleta, Mistode, Cristina, Negrisanu, Gabriela, Onaca, Adriana, Paveliu, Silvia, Pintilei, Ella, Pop, Lavinia, Popa, Amorin, Popescu, Alexandrina, Radulian, Gabriela, Szilagyi, Iosif, Turcu, Liana, Vacaru, Georgeta, Vlad, Adrian, Filimon, Adriana, Veresiu, Ioan, Antsiferov, Mikhail, Arkhipov, Mikhail, Babkin, Andrey, Barbarash, Olga, Baranov, Vitaliy, Chernyavskaya, Elena, Demko, Arkadiy, Dreval, Alexander, Edin, Anton, Ermakova, Polina, Fadeev, Valentin, Galyavich, Albert, Gaysina, Leyla, Gordeev, Ivan, Ipatko, Irina, Kalashnikova, Marina, Khalimov, Yuriy, Klimontov, Vadim, Kobalava, Zhanna, Kosmacheva, Elena, Koziolova, Natalya, Sergey Levashov, Lyudmila Kvitkova, Libis, Roman, Marasaev, Vyacheslav, Malykh, Natalia, Martynenko, Vladimir, Malyutina, Sofya, Merai, Imad, Mkrtumyan, Ashot, Nechaeva, Galina, Petunina, Nina, Palyutin, Shamil, Pimenov, Leonid, Rechkova, Elena, Rodionova, Tatyana, Rymar, Oksana, Sardinov, Ruslan, Semenova, Olga, Sherenkov, Alexander, Solovev, Oleg, Smolyarchuk, Elena, Strongin, Leonid, Ukhanova, Olga, Verlan, Nadezhda, Vorokhobina, Natalya, Yakhontov, Davyd, Yakushin, Sergey, Zakharova, Elena, Zalevskaya, Alsu, Zanozina, Olga, Zhdanova, Elena, Zhukova, Larisa, Zykova, Tatyana, Argunova, Yulia, Nikolaev, Konstantin, Villevalde, Svetlana, Fang Sum, Chee, Suhail, Sufi Muhummad, San Tan, Ru, Vathsala, Anantharaman, Wong, Edmund, Bee, Yong Mong, Babikova, Jana, Buganova, Ingrid, Dzupina, Andrej, Ochodnicka, Zuzana, Sosovec, Dalibor, Spodniakova, Denisa, Minarik, Peter, Fayzal Ahmed, Amod, Aslam, Bhana, Sindeep, Distiller, Larry, Jansen van Rensburg, Dirkie, Joshi, Mukesh, Joshi, Shaifali, Lakha, Deepak, Mitha, Essack, Podgorski, Gracjan, Ranjith, Naresh, Rayner, Brian, Rheeder, Paul, Sarvan, Mohamed, Seeber, Mary, Siebert, Heidi, Tayob, Mohammed, Trokis, Julien, Urbach, Dorothea, van Zyl, Louis, Jansen van Rensburg, Dirkie, Bum-Soon Choi, Choi, Moon Gi, Chung, ChoonHee, Hwang, YouCheol, Kim, ChongHwa, Kim, InJoo, Kim, JaeHyeon, Kim, SinGon, Kim, SungGyun, Kim, Tae Hee, Lee, WooJe, Lee, ByungWan, Lee, Kang Wook, Oh, Kook-Hwan, Oh, Ji Eun, Oh, Yun Kyu, Oh, Dong-Jin, Park, Junbeom, Shin, Seok Joon, Sung, Su-Ah, Yu, Jae Myung, Chung, HyeSoo, Huh, Ji Hye, Kang, JunGoo, Kim, ChulSik, Kim, HyeSoon, Kim, NamHoon, Lim, Soo, Cho, Young Min, Park, Cheol Young, Agraz, Irene, Ampudia, Francisco Javier, Bouarich, Hanane, Calero, Francesca, Castro, Cristina, Guldris, Secundino Cigarrán, Garrit, Josep Cruzado, de Álvaro, Fernando, Galcerán, Josep, Albarrán, Olga González, Jaras, Julio Hernández, Ibernón, Meritxell, Deben, Francisco Martínez, Ma, Esteban, Dolores Martínez, Pascual Izuel, José María, Martins, Judith, Mediavilla, Juan, Michán, Alfredo, Santos, Julio Pascual, Poch, Esteban, Rusillo, Manuel Polaina, Juan, Carlos Sánchez, Olmo, Rafael Santamaría, Segura de la Morena, José Julián, Soto, Alfonso, Troya, Maribel, Castro, Fernando Cereto, Fernández, Pablo Gómez, Sánchez, Laura Fuentes, Moya, Mercedes González, Marrero, Domingo Hernández, Maroto, Gonzalo Piedrola, Redón, Josep, Seron, Daniel, Bruchfeld, Annette, Curiac, Dan, Eliasson, Ken, Frank, Malin, Guron, Gregor, Hellberg, Olof, Hellgren, Margareta, Larnefeldt, Hans, Lindholm, Carl-Johan, Löndahl, Magnus, Rein-Hedin, Erik, Soveri, Inga, Spaak, Jonas, Tengmark, Bengt-Olov, Lif-Tiberg, Cornelia, Månflod, Johan, Nguyen, Han, Ackermann, Daniel, Bilz, Stefan, Burnier, Michel, Forster, Christian, Kalbermatter, Stefan, Kistler, Andreas, Pechère-Bertschi, Antoinette, Schultes, Bernd, Laimer, Markus, Rudofsky, Gottfried, Strey, Christopher, Wuerzner, Gregoire, Chiz-Tzung Chang, Hung, Cheng-Chieh, Jiang, Ju-Ying, Lee, Chien-Te, Lin, Shuei-Liong, Tarng, Der-Cherng, Tu, Shih-Te, Wu, Mai-Szu, Wu, Ming-Ju, Chuang, Lee-Ming, Deerochanawong, Chaicharn, Kitiyakara, Chagriya, Ophascharoensuk, Vuddhidej, Pongchaiyakul, Chatlert, Satirapoj, Bancha, Kosachunhanan, Natapong, Sritara, Piyamitr, Eren, Necmi, Gul, Ibrahim, Gulel, Okan, Kocyigit, Ismail, Kumbasar, Abdulbaki, Sahin, Idris, Sari, Ramazan, Sayin, Burak, Tavli, Talat, Ustundag, Sedat, Yenicerioglu, Yavuz, Badak, Ozer, Cayli, Murat, Oguz, Aytekin, Ozdogan, Oner, Sari, Ibrahim, Temizhan, Ahmet, Tigen, Mustafa, Turk, Ugur, Yilmaz, Huseyin, Yilmaz, Mehmet, Bondarets, Iryna, Botsyurko, Volodymyr, Chernikova, Viktoriia, Donets, Oleksandra, Fushtey, Ivan, Grachova, Mariia, Isayeva, Anna, Kogut, Dmytro, Komisarenko, Julia, Kravchun, Nonna, Malyar, Kateryna, Mankovsky, Borys, Martynyuk, Liliya, Maslyanko, Vitaliy, Myshanych, Halyna, Pererva, Larysa, Pertseva, Nataliia, Serhiyenko, Oleksandr, Smirnov, Ivan, Sokolova, Liubov, Stryzhak, Vasyl, Vlasenko, Maryna, Isayeva, Ganna, Larin, Oleksandr, Ahmad AbouSaleh, Barratt, Jonathan, Dang, Cuong, Kahal, Hassan, Kirk, Adam, Kilvert, Anne, Kon, Sui Phi, McCafferty, Kieran, Patel, Dipesh, Rice, Sam, Vijayaraman, Arutchelvam, Wong, Yuk-ki, Gibson, Martin, Wahba, Mona, Zaidi, Reza, Bilous, Rudy, Johnson, Andrew, Kalathil, Dhanya, Kilvert, Anne, Kyriakidou, Christina, Mathew, Amit, Mukhtar, Rasha, Munsoor, Imrozia, Poterajlo, Anton, Swift, Pauline, Idalia Acosta, Adams, Atoya, Adler, Sharon, Ajani, Dilawar, Ali, Slamat, Alicic, Radica, Al-Karadsheh, Amer, Alla, Sreedhara, Allison, D., Andrawis, Nabil, Arif, Ahmed, Awad, Ahmed, Azizad, Masoud, Bahrami, Michael, Bansal, Shweta, Barag, Steven, Barakzoy, Ahmad, Barney, Mark, Barzilay, Joshua, Bashir, Khalid, Bautista, Jose, Beddhu, Srinivasan, Belo, Diogo, Benjamin, Sabrina, Berenji, Ramin, Bhargava, Anuj, Birriel, Jose, Brietzke, Stephen, Brosius, Frank, Brusco, Osvaldo, Burgner, Anna, Busch, Robert, Canadas, Rafael, Caramori, Maria, Cardona, Jose, Case, Christopher, Cruz, Humberto, Dandillaya, Ramprasad, Dawoud, Dalia, Din, Zia, Dixon, Bradley, Doshi, Ankur, Drakakis, James, El Shahawy, Mahfouz, El-Meanawy, Ashraf, El-Shahawy, Mohammed, Evans, John, Fadda, George, Farooq, Umar, Fernando, Roland, Fink, Raymond, First, Brian, Fitz-Patrick, David, Flack, John, Fluck, Patrick, Fogelfeld, Leon, Fonseca, Vivian, Frias, Juan, Galphin, Claude, Garcia-Mayol, Luis, Goldstein, Gary, Gonzalez, Edgar, Gonzalez-Abreu, Francisco, Gore, Ashwini, Grant, David, Habwe, Violet, Hamilton, Maxine, Hammoud, Jamal, Handelsman, Stuart, Hartman, Israel, Heigerick, Glenn, Henry, Andrew, Hernandez, German, Hernandez-Cassis, Carlos, Herrera, Carlos, Hertel, Joachim, Huang, Wenyu, Iglesias, Rogelio, Iranmanesh, Ali, Jackson, Timothy, Jain, Mahendra, Jamerson, Kenneth, Johnson, Karen, Judd, Eric, Kaplan, Joshua, Kayali, Zeid, Khan, Bobby, Khan, Muhammad, Kharait, Sourabh, Kirkman, M. Sue, Kopyt, Nelson, Kotzker, Wayne, Kovesdy, Csaba, Kreit, Camil, Krishna, Arvind, Kronfli, Saeed, Lee, Keung, LeJeune, Derek, Lemus, Brenda, Leon-Forero, Carlos, Linfert, Douglas, Lora, Henry, Lurie, Alexander, Maddukuri, Geetha, Magno, Alexander, Maletz, Louis, Mandayam, Sreedhar, Markell, Mariana, Mayfield, Ronald, Mbogua, Caroline, McMullen, Dierdre, Meisner, Carl, Minton, Stephen, Mocherla, Bharat, Mohandas, Rajesh, Montero, Manuel, Moustafa, Moustafa, Nadkarni, Salil, Nakhle, Samer, Navarro, Jesus, Neyra, Nilda, Nica, Romanita, Nicol, Philip, Norwood, Paul, Numrungroad, Visal, Donovan, Richard O′, Odugbesan, A., Paoli-Bruno, Jorge, Parikh, Samir, Patel, Rakesh, Peixoto, Aldo, Pergola, Pablo, Perlman, Alan, Pettis, Karlton, Pisoni, Roberto, Ponduchi, Mirela, Posada, Jorge, Prabhakar, Sharma, Radhakrishnan, Jai, Rahman, Mahboob, Raina, Rupesh, Rastogi, Anjay, Reisin, Efrain, Rendell, Marc, Robertson, David, Rocco, Michael, Romeu, Hugo, Rosas, Sylvia, Rosenfeld, Jack, Ross, Dennis, Rothman, Jeffrey, Rudolph, Lance, Ruhullah, Yusuf, Ruoff, Gary, Ryu, Jeffrey, Sahani, Mandeep, Sam, Ramin, Samuels, Garfield, Sanchez, William, Santos, Vladimir, Satko, Scott, Saxena, Sanjeev, Scott, David, Seco, Gilberto, Seek, Melvin, Serota, Harvey, Shafi, Tariq, Shahid, Nauman, Shanik, Michael, Sharma, Santosh, Sinha, Arjun, Smelser, James, Smith, Mark, Soe, Kyaw, Solomon, Richard, Soroka, Eugene, Soufer, Joseph, Spinowitz, Bruce, Spry, Leslie, Suarez, Rosa, Subramanian, Bala, Szerlip, Harold, Tamirisa, Aparna, Thomson, Stephen, Tran, Tuan-Huy, Treger, Richard, Trullenque, Gretel, Turk, Thomas, Umpierrez, Guillermo, Urbach, Daniel, Valdes, Martin, Valika, Shujauddin, Vega, Damaris, Weissman, Peter, Whaley-Connell, Adam, Winston, Jonathan, Wise, Jonathan, Wynne, Alan, Zeig, Steven, Abdel-Rahman, Emaad, Abreu, Edel, Awad, Alaa, Bahri, Nader, Bertsch, John, Bleich, David, Bornfreund, Jonathan, Brar, Harjeet, Brian, Susan, Brinson, Cynthia, Bruschetta, Humberto, Carpio, Jose, Cohen, Steven, Cosby, John, Dhanireddy, Soni, Diaz, Jorge, Dunn, Fredrick, Eppanapally, Sabitha, Fayad, Joseph, Goel, Archana, Govindaraju, Kanakadurga, Halpern, Stephen, Jones, Audrey, Kaye, William, Knight, Herbert, Koch, Stanley, Kohli, Nandini, Lastra, Guido, Lerman, Sam, Loredo, Jorge, Lovre, Dragana, Mandviwala, Mustafa, Martin, Earl, Meyer, Jill, Murray, John, Oliver, David, Oparil, Suzanne, Penabad, Jesus, Pereira, Isabel, Popeil, Larry, Quesada, Gonzalo, Ramanathan, Kodangudi, Ramos-Gonez, Luis, Rastegar, Mandana, Rastogi, Padmashri, Rondon, Juan, Roy-Chaudhury, Prabir, Smith, David, Williamson, Don, Womack, Catherine, Yamout, Hala, Yuryev, Michael, Chu, Phuong, Van Hoang, Lam, Khanh, Tran, Phi Nga, Nguyen Thi, Son, Pham Nguyen, Tran, Lan Phuong, Le, Thuy Khuong, Nguyen, Boi Ngoc, Nguyen, Thao, Nui, Nguyen Minh, Nam, Tran Quang, and Tran, Kim Chi

Published

2023

3. Population difference gratings created on vibrational transitions by nonoverlapping subcycle THz pulses

Author

Arkhipov, Rostislav, Pakhomov, Anton, Arkhipov, Mikhail, Babushkin, Ihar, Demircan, Ayhan, Morgner, Uwe, and Rosanov, Nikolay

Published

2021

4. Stable coherent mode-locking based on π pulse formation in single-section lasers

Author

Arkhipov, Rostislav, Pakhomov, Anton, Arkhipov, Mikhail, Babushkin, Ihar, and Rosanov, Nikolay

Published

2021

5. Lipoprotein(a) levels distribution in an adult sample from the middle ural region

Author

Andreev, Pavel, Ezhov, Marat, Khromtsova, Oksana, Bykov, Alexander, and Arkhipov, Mikhail

Published

2024

6. The formation of land use at the waste storage facility of the pulp and paper industry

Author

Bogdanov Vladimir, Garmanov Vitaly, Pavlova Viktoriia, Uvarova Ekaterina, Osipov Aleksey, Arkhipov Mikhail, Nikonorov Aleksandr, and Akimov Luka

Subjects

Environmental sciences, GE1-350

Abstract

The article provides materials on the natural restoration of land cover in the territory occupied by the waste storage facility of the pulp and paper industry. The article contains information on the level of soil fertility formed on this territory as a result of decomposition of organic waste over 25 years. The composition of the phytocenosis is presented. The article provides materials on the ecological state of the studied object, and also considers the technological operations of reclamation of an authorized landfill in the areas of forestry and recreational land use, taking into account the ecosystem formed at the storage facility.

Published

2020

7. Optimization of hypomagnesemia diagnostics as an integral element in paroxysmal atrial fibrillation management strategy

Author

Arkhipov Mikhail, Bozhko Yakov, Beloconova Nadejda, Kochmasheva Valentina, and Chromtsova Oksana

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Purpose. To study magnesium status of patients having paroxysmal atrial fibrillation (AF) based on the use of an integrated clinical and laboratory approach. Methods. A prospective cohort study included 58 patients of the cardiology department of New Hospital Medical Association. The main group consisted of 32 patients having frequently recurring paroxysmal AF, the control group consisted of 26 patients without paroxysmal rhythm disturbance. The clinical status, Holter ECG monitoring data, the test results for magnesium deficiency (MD) clinical evidence, laboratory evidence of calcium, magnesium in blood plasma and formed elements, magnesium in whole blood, free fatty acids (FFA) and osmolality in blood plasma were assessed. Results. The score obtained when assessing MD clinical evidence was significantly higher in the main group patients compared with the control group (16.5 (11÷21) vs. 13 (8÷15), p

Published

2020

8. Risk for Major Bleeding in Patients Receiving Ticagrelor Compared With Aspirin After Transient Ischemic Attack or Acute Ischemic Stroke in the SOCRATES Study (Acute Stroke or Transient Ischemic Attack Treated With Aspirin or Ticagrelor and Patient Outcomes)

Author

Easton, J. Donald, Aunes, Maria, Albers, Gregory W., Amarenco, Pierre, Bokelund-Singh, Sara, Denison, Hans, Evans, Scott R., Held, Peter, Jahreskog, Marianne, Jonasson, Jenny, Minematsu, Kazuo, Molina, Carlos A., Wang, Yongjun, Wong, K.S. Lawrence, Johnston, S. Claiborne, Ameriso, Sebastiá F., Donnan, Geoffrey, Lemmens, Robin, Massaro, Ayrton, Titianova, Ekaterina, Hill, Michael D., Lavados, Pablo, Skoloudik, David, Röther, Joachim, Norbert, Szegedi, Agnelli, Giancarlo, Bornstein, Natan, Tanahashi, Norio, Góngora, Angel Arauz, Pretell, Edwin, San Jose, Maria Cristina Z., Czlonkowska, Anna, Bajenaru, Ovidiu, Stakhovskaya, Ludmila, Brozman, Miroslav, Kim, Jong-Sung, Wahlgren, Nils, Michel, Patrik, Lee, Tsong Hai, Suwanwela, Nijasri Charnnarong, Kutluk, Kursad, Moskovko, Sergii, Kasner, Scott, Laskowitz, Daniel, Clark, Wayne, Nguyen, Huy Thang, Ameriso, Sebastian, Lepera, Sandra, Romano, Marina, Paulon, David, Ioli, Pablo, Zurru, Cristina, Bruera, Guadalupe, Jure, Lorena, Klein, Francisco, Povedano, Guillermo, Levi, Christopher, Phan, Thanh, Markus, Romesh, Anderson, Craig, Sabet, Arman, Davis, Stephen, Lee, Andrew, Kleinig, Timothy, Wong, Andrew, Krause, Martin, Jannes, Jim, Wijeratne, Tissa, Lemmens, Robin, Hemelsoet, Dimitri, Peeters, André, Tack, Philippe, Vanacker, Peter, Laloux, Patrice, Van Landegem, William, Vanhooren, Geert, Desfontaines, Philippe, Van Orshoven, Marc, Oliveira, Fabio, Friedrich, Mauricio, Brondani, Rosane, Gagliardi, Rubens, Fabio, Soraia, Dracoulakis, Marianna, Bazan, Rodrigo, Marrone, Luiz, Pontes Neto, Octavio, Silva, Gisele, Kowacs, Pedro, Titianova, Ekaterina, Stamenova, Paraskeva, Daskalov, Marin, Staikov, Ivan, Baldaranov, Dimo, Maslarov, Dimitar, Lilovski, Hristo, Petkov, Plamen, Petrova, Neli, Mavrov, Radoslav, Markova, Veska, Petrova, Valeria, Beleva, Tanya, Kralev, Borislav, Sotirov, Nikolay, Lekova, Veska, Hristov, Dimcho, Ermenkova, Vera, Mateev, Lyudmil, Mitkova, Rumeliya, Haralanov, Liybomir, Ikonomov, Rosen, Mihailova, Margarita, Georgiev, Ivan, Shuaib, Ashfaq, Hachinski, Vladimir, Boulanger, Jean-Martin, Mann, Sharan, Hassan, Ayman, Mackey, Ariane, Menon, Bijoy, Minuk, Jeffrey, Siddiqui, Muzaffar, Eustace, Marsha, Vieira, Lucia, Selchen, Daniel, Beaudry, Michel, Stotts, Grant, Lavados, Pablo, Castro, Angel, Gasic, Kristo, Rivas, Rodrigo, Sanchez, Pablo, Roldan, Andres, Grossmann, Ingrid, Figueroa, Christian, Li, Jimei, Xu, Xiaolin, Chen, Huisheng, Li, Xiaohong, Yang, Yi, Zhang, Chunsheng, Wang, Baojun, Li, Guanglai, Wang, Dong, Lin, Hong, Tang, Yamei, Xu, Anding, Wang, Yanjiang, Hong, Wenke, Song, Zhi, Zhang, Xu, Jin, Xiaoping, Xu, Yun, Yan, Fuling, Zheng, Weihong, Wang, Xiaoping, Dong, Qiang, Zhao, Zhongxin, Zhang, Baorong, Zhong, Wangtao, Wen, Guoqiang, Xu, Jun, Li, Guozhong, Dong, Xueshuang, Tian, Xiangyang, Zhang, Zhaohui, Xu, En, Liu, Kaixiang, Chen, Jun, Skoda, Ondrej, Skoloudik, David, Ehler, Edvard, Vaclavik, Daniel, Sanak, Daniel, Klimosova, Sylva, Vitkova, Eva, Fiksa, Jan, Mikulik, Robert, Neumann, Jiri, Plny, Richard, Leys, Didier, Sibon, Igor, Mas, Jean-Louis, Alamowitch, Sonia, Pico, Fernando, Hosseini, Hassan, Mahagne, Marie-Hélène, Touze, Emmanuel, Vadot, Wilfried, Vannier, Stéphane, Nighoghossian, Norbert, Samson, Yves, Garnier, Pierre, Ellie, Emmanuel, Guillon, Benoît, Timsit, Serge, Giroud, Maurice, Philippeau, Frédéric, Bagan-Triquenot, Aude, Wolff, Valérie, Raposo, Nicolas, Obadia, Michel, Debiais, Severine, Grimaud, Jérôme, Illouz, Stéphane, Smadja, Didier, Urbanczyk, Cédric, Röther, Joachim, Berrouschot, Jörg, Weimar, Christian, Gahn, Georg, Soda, Hassan, Klimpe, Sven, Nabavi, Darius, Glahn, Jörg, Köhrmann, Martin, Krause, Lars, Terborg, Christoph, Urban, Peter, Steiner, Thorsten, Ferbert, Andreas, Dziewas, Rainer, Seidel, Günter, Thomalla, Götz, Li, Richard, Fong, Wing Chi, Cheung, Raymond, Szegedi, Norbert, Pozsegovits, Krisztián, Valikovics, Attila, Pánczél, Gyula, Rózsa, Csilla, Németh, László, Diószeghy, Péter, Óváry, Csaba, Csányi, Attila, Kerényi, Levente, Nagy, Valéria, Komoly, Sámuel, Bereczki, Dániel, Molnár, Sándor, Kondákor, István, Tanne, David, Raphaeli, Guy, Telman, Gregory, Bornstein, Natan, Leker, Ronen, Lampl, Yair, Agnelli, Giancarlo, Corea, Francesco, Ricci, Stefano, Guidetti, Donata, Malferrari, Giovanni, Marcheselli, Simona, Micieli, Giuseppe, Zini, Andrea, Di Lazzaro, Vincenzo, Gandolfo, Carlo, Salmaggi, Andrea, Tassi, Rossana, Rasura, Maurizia, Orlandi, Giovanni, Comi, Giancarlo, Ricci, Stefano, Mancuso, Michelangelo, Delodovici, Marialuisa, Bovi, Paolo, Consoli, Domenico, Utsugisawa, Kimiaki, Fujita, Tsuneo, Kurihara, Hideyuki, Maruki, Chikashi, Hayashi, Takeshi, Ogiichi, Tsuneaki, Kumagai, Morio, Takenaka, Katsunobu, Toyoda, Kazunori, Takamatsu, Kazuhiro, Ogami, Ryo, Kin, Shigenari, Aoki, Takeshi, Takizawa, Katsumi, Omori, Shigehiro, Umezawa, Takehiko, Toba, Yasuyuki, Nonoyama, Yutaka, Nakagawa, Hidemitsu, Naka, Takashi, Morimoto, Masanori, Matsumoto, Shuichi, Hitotsumatsu, Tsutomu, Shingaki, Tatsuya, Okuda, Satoshi, Ota, Mamoru, Sakai, Nobuyuki, Yamada, Takeshi, Niwa, Jun, Fujita, Hitoshi, Moriki, Akihito, Yoshino, Kimihiro, Fukushima, Yoshihisa, Mori, Takahisa, Sato, Atsushi, Kusano, Yoshikazu, Kubo, Michiya, Yamazaki, Masashi, Ooasa, Takao, Nishizaki, Takafumi, Kitagawa, Naoki, Yasaka, Masahiro, Manabe, Yasuhiro, Yoshioka, Akira, Ishihara, Masayuki, Kagawa, Takato, Ichihashi, Toshikazu, Matsuoka, Hideki, Ito, Yasuhiro, Yamasaki, Masahiro, Takaba, Hitonori, Saito, Hisatoshi, Sato, Masahiro, Fukuda, Kazumasa, Endo, Sumio, Kidooka, Minoru, Umemura, Toshitaka, Kikkawa, Yuriko, Toru, Shuta, Yamada, Kentaro, Sakai, Hideki, Asari, Jun, Ezura, Masayuki, Nitta, Hisashi, Nagano, Keiko, Ochiai, Jun, Sakai, Keiichi, Kobayashi, Yasutaka, Yoshii, Yasuhiro, Miake, Hirotomo, Takita, Tomohiro, Taniguchi, Hidekazu, Kuroki, Kazuhiko, Mizota, Takamitsu, Yamamoto, Kenichi, Nakane, Hiroshi, Iwanaga, Takeshi, Chiba, Kei, Yoshimoto, Tetsuyuki, Torii, Tsuyoshi, Kitagawa, Takeo, Takashima, Hiroshi, Shirasaki, Naoki, Dehara, Makoto, Wada, Naomichi, Hamada, Kensuke, Kato, Noriyuki, Go, Yoshinori, Izumi, Ichiro, Ninomiya, Hirotomo, Kumai, Junichiro, Nakajima, Yoshikazu, Kaku, Yasuhiko, Isayama, Yukihiro, Kawanishi, Masahiro, Noda, Shinya, Yamamoto, Kazuhide, Hazama, Takanori, Takahashi, Hiroshi, Tanaka, Yohei, Hata, Takashi, Kazekawa, Kiyoshi, Furui, Eisuke, Hondo, Hideki, Sato, Nobuyuki, Kusunoki, Katsusuke, Nanri, Kazunori, Abe, Satoshi, Sasaoka, Noboru, Kuroyanagi, Takayuki, Suzuki, Hisahiko, Fukuyama, Kouzou, Nakahara, Kimihiro, Gongora, Fernando, Góngora, Angel Arauz, Cantú Brito, Carlos, Villarreal Careaga, Jorge, Vazquez Alfaro, Rosalia, Aguayo Leytte, Geronimo, Berrospi, Percy, Chavez, Carlos, Pretell, Edwin, Rodriguez, Liliana, Custodio, Nilton, Castañeda, Cesar, Perez, Julio, San Jose, Maria Cristina, Baroque, Alejandro, Collantes, Epifania, Aquino, Abdias, Díaz, Alejandro, Roxas, Artemio, Jr, Lokin, Johnny, Advincula, Joel, Calderon, Emerito, Navarro, Jose, Hiyadan, John, Surdilla, Arturo, Czlonkowska, Anna, Ryglewicz, Danuta, Krychowiak, Grzegorz, Fryze, Waldemar, Sobolewski, Piotr, Nowak, Ryszard, Fiszer, Urszula, Papierowska, Beata, Zielińska-Turek, Justyna, Lasek-Bal, Anetta, Kołodziejska, Ewa, Kamińska, Anna, Adamkiewicz, Bożena, Tutaj, Andrzej, Szkopek, Dorota, Musiatowicz, Krzysztof, Bąk, Zbigniew, Brzozowski, Sławomir, Brola, Waldemar, Ferens, Antoni, Zalisz, Marek, Rejdak, Konrad, Rudzińska, Monika, Bajenaru, Ovidiu, Panea, Cristina, Simu, Mihaela, Balasa, Rodica, Cuciureanu, Iulian, Popescu, Bogdan, Sabau, Monica, Roman-Filip, Corina, Pimenov, Leonid, Gekht, Alla, Milto, Anna, Shchukin, Ivan, Parfenov, Vladimir, Stakhovskaya, Liudmila, Arkhipov, Mikhail, Sokolova, Nadezhda, Bogdanov, Enver, Esin, Radiy, Khasanova, Dina, Golikov, Konstantin, Melnikova, Elena, Zaslavskiy, Leonid, Voznyuk, Igor, Nazarov, Alexander, Akhmadeeva, Leila, Iakupova, Aida, Shamalov, Nikolay, Belskaya, Galina, Chuprina, Svetlana, Denisova, Olga, Drozdova, Ekaterina, Karakulova, Yuliya, Sholomov, Ilya, Spirin, Nikolay, Vostrikova, Elena, Mordvintseva, Elena, Grigoryeva, Vera, Zateyshchikov, Dmitry, Gorbachev, Vladimir, Chefranova, Zhanna, Dudarev, Mikhail, Nilk, Rostislav, Rozhdestvenskiy, Alexey, Gurcik, Ladislav, Dvorak, Miloslav, Krastev, Georgi, Kurca, Egon, Vyletelka, Juraj, Brozman, Miroslav, Kim, Jong Sung, Bae, Hee-Joon, Kim, Yong-Won, Kim, Joon-Tae, Cha, Jae-Kwan, Nam, Hyo Suk, Chang, Dae-Il, Lee, Yong-Seok, Oh, Kyungmi, Yu, Sung-Wook, Sohn, Sung-Il, Lee, Jun, Cho, Han Jin, Kim, Eung-Gyu, Rha, Joung-Ho, Kim, Seo Hyun, Molina Cateriano, Carlos, Serena Leal, Joaquín, Vivancos Mora, José, Rodríguez Yañez, Manuel, Roquer González, Jaume, Purroy García, Francisco, Gomis Cortina, Meritxell, Masjuan Vallejo, Jaime, Arenillas Lara, Juan, Segura Martín, Tomás, Herrero, José Antonio Egido, Tembl Ferrairó, Jose Ignacio, Gállego Culleré, Jaime, Moniche Álvarez, Francisco, Steinberg, Anna, Callander, Margarita, Laska, Ann Charlotte, Bokemark, Lena, Mooe, Thomas, Käll, Tor-Björn, Welin, Lennart, Sjöblom, Lars, Hambraeus, Joakim, Teichert, Jörg, Wannberg, Hans, Sanner, Johan, Ramströmer, Bo, Ziedén, Bo, Hau, Stefan Olsson, Gustafsson, Claes, Michel, Patrik, Kahles, Timo, Lyrer, Philippe, Arnold, Marcel, Liesch, Martin, Medlin, Friedrich, Cereda, Carlo, Kägi, Georg, Luft, Andreas, Carrera, Emmanuel, Lee, Tsong-Hai, Po, Helen L., Chern, Chang-Ming, Lien, Li-Ming, Chan, Lung, Liu, Chung-Hsiang, Wu, Shey-Lin, Lee, Jiann-Der, Chen, Chih-Hung, Lin, Huey-Juan, Lin, Ruey-Tay, Chen, Wei-Hsi, Sun, Yu, Suwanwela, Nijasri Charnnarong, Tantirittisak, Tasanee, Muengtaweepongsa, Sombat, Nilanont, Yongchai, Tiamkao, Somsak, Udommongkol, Chesda, Watcharasaksilp, Kanokwan, Jantararotai, Witoon, Kutluk, Kursad, Sirin, Hadiye, Ince, Birsen, Asil, Talip, Arsava, Murat, Incesu, Tulay Kurt, Tireli, Hulya, Kucukoglu, Hayriye, Ak, Fikri, Unal, Ali, Ozturk, Serefnur, Uzuner, Nevzat, Chmyr, Galyna, Lebedynets, Volodymyr, Nikonov, Vadym, Shulga, Lyudmyla, Smolanka, Volodymyr, Moskovko, Sergii, Khavunka, Marta, Yavorska, Valentyna, Tomakh, Nataliya, Kozyolkin, Olexandr, Litovaltseva, Galyna, Lansberg, Maarten, Bernstein, Richard, Brown, David, Clark, Wayne, Dissin, Jonathan, Graffagnino, Carmelo, Harris, Jonathan, Hicks, William, Kasner, Scott, Katzan, Irene, Kramer, Jeffrey, Willey, Joshua, Silliman, Scott, Starkman, Sidney, Thaler, David, Tremwel, Margaret, Concha, Mauricio, Rajamani, Kumar, Dandapani, Bhuvaneswari, Silver, Brian, Deal, Nathan, Chang, Ira, Hassan, Ameer, Rudolph, Steven, Fischer, Kenneth, Kirshner, Howard, Logan, William, Mallenbaum, Sidney, Hefzy, Hebah, Latorre, Julius, Levine, Steven, Ciabarra, Anthony, Dafer, Rima, Anyanwu, Benjamin, Cherian, Laurel, Panezai, Spozhmy, Khanna, Anna, Dodds, Jodi, Torbey, Michel, Gebel, James, Woo, Henry, Chiu, David, Androulakis, Xiao, Burgin, William, Pineda, Maria, Yilmaz, Engin, Altafullah, Irfan, Boutwell, Christine, Cruz-Flores, Salvador, Sapkota, Biggya, Fayad, Pierre, Jacoby, Michael, Rafiq, Shahid, Salgado, Efrain, Lafranchise, Eugene, Felton, Warren, Madhavan, Ramesh, Zaidat, Osama, Pieper, Connie, Riviello, Ralph, Burnett, Aaron, Fischer, Michelle, Gentile, Nina, Calder, Christopher, Dietrich, Dennis, Cross, Jonathan, Blankenship, Larry, Dafer, Rima, Montoya, Liliana, Grogan, Wendell, Young, Mark, Khan, Farrukh, Campbell, Duane, Daboul, Nizar, Espinoza, Andrey, Cullis, Paul, Concepcion, Gilberto, Wulff, John, Afzal, Haider, Jaffrani, Naseem, Reiter, William, Arshad, Tamjeed, Lukovits, Timothy, Welker, James, Chang, Fen Lei, Badruddin, Aamir, Babikian, Viken, Menon, Ravi, Sander, James, Springer, Mellanie, Nanda, Ashish, Mas, Luis, Rajan, Raj, Silverman, Bruce, Hefzy, Hebah, Huang, David, Carpenter, David, Clark, Joni, Ching, Marilou, Santhakumar, Sunitha, Gould, Jeffrey, Bansal, Vibhav, Vidal, Gabriel, Mikesell, Timothy, Brick, John, French, William, Shah, Qaisar, Holmstedt, Christine, Ishag-Osman, Nadir, Kostis, John, Shehadeh, Abbas, Sethi, Pramodkumak, Imam, Asher, Mccomas, Carl, Tran, Duc, Gebreyohanns, Mehari, Wiseman, Brian, Malik, Maheen, Schwarcz, Aron, Altschul, Dorothea, Castaldo, John, Alshekhlee, Amer, Gancher, Stephen, Krish, Nagesh, Nguyen-Huynh, Mai, Tremwell, Margaret, Sharma, Jitendra, Lee, Lance, Neil, William, Siddiqui, Fazeel, Malek, Ali, Romero, Charles, Huy, Thang Nguyen, Hoang, Hoa, Nguyen, Thang, Nguyen, Anh, and Nguyen, Hung

Published

2017

9. Five models of hysteretic water-retention capacity and their comparison for sandy soil

Author

Terleev Vitaly, Mirschel Wilfried, Nikonorov Aleksandr, Ginevsky Roman, Lazarev Viktor, Topaj Alex, Moiseev Kirill, Layshev Kasim, Arkhipov Mikhail, Melnichuk Aleksandr, Dunaieva Ielizaveta, and Popovych Valentina

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

A description of five mathematical models of the water-retention capacity of soil is given, taking into account the hysteresis phenomena. A computational experiment was carried out with these models using data on sandy soil. The experiment consisted of: (i) tuning of the models (parameter identification) by the method of dot-approximation of experimental data on the main drying and wetting branches of the hysteresis loop using an optimizing algorithm; (ii) the predictive calculation of the scanning branches of the hysteresis loop; (iii) a comparison of the errors in tuning results and the predictive calculation using the Williams-Kloot criteria. The commensurate and sufficiently low errors in the adjustment of the models have been achieved. The differences in the calculation of the scanning hysteresis branches are revealed. The practical significance of the mathematical models presented is to ensure the calculation of precision irrigation rates. The application of such rates in irrigation farming will help to prevent excess moisture from flowing beyond the root layer of the soil under the influence of gravity and, thus, to minimize the losses (unproductive consumption) of irrigation water, fertilizers, meliorants and plant protection products, and also reduce the risk of groundwater contamination with agrochemicals and eutrophication of water bodies.

Published

2018

10. The water exchange and water quality improvement measures on the example of the Gulf of Cheboksary

Author

Pavlov Sergey, Arlanova Maria, Nikonorov Aleksandr, Terleev Vitaly, Togo Issa, Volkova Yulia, Garmanov Vitaly, Shishov Dmitry, Layshev Kasim, and Arkhipov Mikhail

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper is dedicated to the Gulf of Cheboksary. The gulf has an important recreational and decorative function. It has been an integral part of the urban landscape for several decades. There is an eutrophication process, accompanied by the development of blue-green algae and the appearance of an odour in early spring, despite the water quality improvement measures. Measures that will improve the water exchange in the Gulf are proposed in this paper. Problems with the sanitary condition of the water body can occur without taking these measures. Therefore, the theme of this research is quite urgent.

Published

2017

11. Neural entity linking: A survey of models based on deep learning.

Author

Alam, Mehwish, Buscaldi, Davide, Cochez, Michael, Osborne, Francesco, Recupero, Diego Reforgiato, Sack, Harald, Sevgili, Özge, Shelmanov, Artem, Arkhipov, Mikhail, Panchenko, Alexander, Biemann, Chris, and Refogiato Recupero, Diego

Subjects

DEEP learning, NATURAL language processing, KNOWLEDGE graphs

Abstract

This survey presents a comprehensive description of recent neural entity linking (EL) systems developed since 2015 as a result of the "deep learning revolution" in natural language processing. Its goal is to systemize design features of neural entity linking systems and compare their performance to the remarkable classic methods on common benchmarks. This work distills a generic architecture of a neural EL system and discusses its components, such as candidate generation, mention-context encoding, and entity ranking, summarizing prominent methods for each of them. The vast variety of modifications of this general architecture are grouped by several common themes: joint entity mention detection and disambiguation, models for global linking, domain-independent techniques including zero-shot and distant supervision methods, and cross-lingual approaches. Since many neural models take advantage of entity and mention/context embeddings to represent their meaning, this work also overviews prominent entity embedding techniques. Finally, the survey touches on applications of entity linking, focusing on the recently emerged use-case of enhancing deep pre-trained masked language models based on the Transformer architecture. [ABSTRACT FROM AUTHOR]

Published

2022

12. Targeting tachycardia: Diagnostic tips and tools

Author

Kireyev, Dmitriy, Fernandez, Stanley F., Gupta, Vipul, Arkhipov, Mikhail V., and Paris, Joseph A.

Published

2012

13. Clinical Utility of aVR—The Neglected Electrocardiographic Lead

Author

Kireyev, Dmitriy, Arkhipov, Mikhail V., Zador, Stephen T., Paris, Joseph A., and Boden, William E.

Published

2010

14. Adaptation of Deep Bidirectional Multilingual Transformers for Russian Language

Author

Kuratov, Yuri and Arkhipov, Mikhail

Subjects

FOS: Computer and information sciences, Computer Science - Computation and Language, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, Computation and Language (cs.CL)

Abstract

The paper introduces methods of adaptation of multilingual masked language models for a specific language. Pre-trained bidirectional language models show state-of-the-art performance on a wide range of tasks including reading comprehension, natural language inference, and sentiment analysis. At the moment there are two alternative approaches to train such models: monolingual and multilingual. While language specific models show superior performance, multilingual models allow to perform a transfer from one language to another and solve tasks for different languages simultaneously. This work shows that transfer learning from a multilingual model to monolingual model results in significant growth of performance on such tasks as reading comprehension, paraphrase detection, and sentiment analysis. Furthermore, multilingual initialization of monolingual model substantially reduces training time. Pre-trained models for the Russian language are open sourced.

Published

2019

15. COMPRESSION OF FEW-CYCLE OPTICAL PULSES AND UNIPOLAR PULSE GENERATION DUE TO COHERENT INTERACTION WITH NONLINEAR RESONANT MEDIUM

Author

Arkhipov Rostislav M, Arkhipov Mikhail, V Babushkin Ihar, and Rosanov Nikolay Nikolaevich

Subjects

Physics, soliton collision, Mechanical Engineering, Soliton collision, self-induced transparency, pulse compression, 01 natural sciences, Atomic and Molecular Physics, and Optics, lcsh:QA75.5-76.95, Computer Science Applications, Electronic, Optical and Magnetic Materials, resonant absorbing medium, 010309 optics, single-cycle pulse, 0103 physical sciences, coherent interaction, lcsh:QC350-467, lcsh:Electronic computers. Computer science, Atomic physics, 010306 general physics, unipolar pulses, lcsh:Optics. Light, Information Systems

Abstract

We study theoretically the possibility of few-cycle short bipolar optical pulse compression and their transformation to unipolar pulses due to coherent interaction with resonance absorbing medium. It is shown that single-cycle pulse compression occurs when each half-wave starts to behave as an independent unipolar soliton. These solitons are attracted to each other under certain conditions, that leads to the emergence of single-cycle pulse of shorter duration. Numerical simulations revealed 3-5 times reduction of the pulse duration. The substantial absence of light loss in this scheme gives the possibility to create a multistage passive system of three resonance absorbers and results in a 125-time reduction of the pulse duration. Generation of unipolar pulses occurs when two powerful extremely short bipolar pulses propagate and collide in a dense resonant medium. In this case, as shown by numerical calculations, the mutual influence of oncoming solitons leads to the fact that some part of them is destroyed and another part is not. A high power unipolar soliton and low intensity bipolar optical ringing are observed in the medium output.

Published

2016

16. Optimization of hypomagnesemia diagnostics as an integral element in paroxysmal atrial fibrillation management strategy.

Author

Kovtun, O., Bazarnyi, V., Arkhipov, Mikhail, Bozhko, Yakov, Beloconova, Nadejda, Kochmasheva, Valentina, and Chromtsova, Oksana

Published

2020

17. The formation of land use at the waste storage facility of the pulp and paper industry.

Author

Zheltenkov, A., Mottaeva, A., Bogdanov, Vladimir, Garmanov, Vitaly, Pavlova, Viktoriia, Uvarova, Ekaterina, Osipov, Aleksey, Arkhipov, Mikhail, Nikonorov, Aleksandr, and Akimov, Luka

Published

2020

18. Hysteresis of the soil water-retention capacity: estimating the scanning branches

Author

Terleev, Vitaly, Nikonorov, Aleksandr, Ginevsky, Roman, Lazarev, Viktor, Togo, Issa, Topaj, Alex, Moiseev, Kirill, Pavlova, Viktoriia, Layshev, Kasim, Arkhipov, Mikhail, Melnichuk, Aleksandr, Dunaieva, Ielizaveta, and Mirschel, Wilfried

Subjects

водоудерживающая способность почвы, петля гистерезиса, scanning curves, сканирующие ветви, water-retention capacity, hysteresis loop, "pump effect", capillary pressure, капиллярное давление, эффект помпы

Abstract

Designing of underground constructions, such as irrigation and drainage systems, requires engineering surveys. Such surveys include the study of the hydrological conditions of the territory, which are determined by the hydrophysical properties of soils, such as their water-retention capacity. The formation of a hysteresis loop for the soil water-retention capacity occurs because of the variability of meteorological conditions. It is almost impossible to measure all possible scanning branches that fill the gap between the main branches of the hysteresis loop. A mathematical model of the hysteretic soil water-retention capacity is proposed. The model is based on physical concepts of the structure and capillary properties of the soil pore space. Model parameters are identified by dot fitting using data on the main (boundary) hysteresis branches. Scanning branches starting with pre-calculated reversal points are evaluated. Suggested model has a quite low error to predict the scanning branches of soil water-retention capacity. The use of this model ensures reliable estimates of the hydrological conditions of the territory for underground construction. Also it gives precision irrigation rates which result in reduction of gravitational runoff of excessive moisture, preventing pollution of groundwater with agrochemicals., Проектирование объектов подземного строительства, таких как ирригационные и дренажные системы, требуют проведения инженерных изысканий. Такие изыскания включают в себя изучение гидрологических условий территории, которые определяются гидрофизическими свойствами почв, например, их водоудерживающей способностью. Изменчивостью метеорологических условий обусловлено формирование петли гистерезиса водоудерживающей способности почвы. Измерение всех возможных сканирующих ветвей, заполняющих промежуток между главными ветвями петли гистерезиса, практически невозможно. Предложена математическая модель гистерезиса водоудерживающей способности почвы. Модель основана на физических представлениях о строении и капиллярных свойствах пространства почвенных пор. Параметры модели идентифицируются путем точечной аппроксимации с использованием данных о главных (граничных) ветвях гистерезиса. Оценены сканирующие ветви, начинающиеся с предварительно рассчитанных поворотных точек. Наряду с обеспечением достоверных оценок гидрологических условий территории подземного строительства, использование данной модели позволяет более точно рассчитать нормы орошения сельскохозяйственных культур. Применение прецизионных норм орошения предотвращает гравитационный сток избыточной влаги, существенно уменьшает вымывание удобрений, мелиорантов и средств защиты растений за пределы корнеобитаемого слоя почвы и, как следствие, снижает риск загрязнения грунтовых вод агрохимикатами, что имеет важное эколого-экономическое значение.

Published

2018

19. Excitation of molecular rotational levels by unipolar subcycle pulses.

Author

Arkhipov, Rostislav, Pakhomov, Anton, Arkhipov, Mikhail, and Rosanov, Nikolay

Published

2020

20. Five models of hysteretic water-retention capacity and their comparison for sandy soil.

Author

Mottaeva, A., Melović, B., Terleev, Vitaly, Mirschel, Wilfried, Nikonorov, Aleksandr, Ginevsky, Roman, Lazarev, Viktor, Topaj, Alex, Moiseev, Kirill, Layshev, Kasim, Arkhipov, Mikhail, Melnichuk, Aleksandr, Dunaieva, Ielizaveta, and Popovych, Valentina

Published

2018

21. Utilizing Johnson Solids for Designing Multielement USBL Systems.

Author

Arkhipov, Mikhail

Subjects

ACOUSTIC signal detection, ULTRASHORT laser pulses, ANTENNA arrays, ALGORITHMS, POLYHEDRA

Abstract

This paper investigates the impact of different ultrashort baseline (USBL) antenna designs on the accuracy of object location. We propose a design method based on Johnson solids and devise a specific algorithm to evaluate the system position determination performance. The idea underlying the design method is to represent a multielement Johnson-solid-based USBL array as a set of basic three-element USBL arrays. The geometrical centers of the receiving elements coincide with polyhedron vertices and the receiving bases correspond to polyhedron edges. Each of the basic three-element arrays provides the data to calculate the location coordinates of an object, thereafter the averaging of the respective coordinates is performed across multiple basic three-element arrays. We have simulated the algorithm for three different configurations of the triangular-cupola-based USBL system. The simulation results indicate that by utilizing more complex USBL configurations, one may potentially minimize the maximum possible error of coordinate determination associated with the limited frequency of a time delay counter. [ABSTRACT FROM AUTHOR]

Published

2016

22. Spectral and Temporal Characteristics of a Transient Cherenkov Radiation from a Periodic Resonant Medium Excited by an Ultrashort Laser Pulse at Superluminal Velocity.

Author

Arkhipov, Rostislav, Babushkin, Ihar, Arkhipov, Mikhail V., and Tolmachev, Yurii A.

Published

2014

23. Approach to the Differentiation of Wide QRS Complex Tachycardias.

Author

Kireyev, Dmitriy, Gupta, Vipul, Arkhipov, Mikhail V., Bhatia, Ashish, Paris, Joseph A., and Boden, William E.

Published

2011

24. Adjustable carbon fiber reinforced plastic panel for a large-aperture telescope.

Author

Arkhipov, Mikhail, Lyakhovets, Andrei, Golubev, Evgeny, Kotsur, Elena, and Baryshev, Andrey

Published

2021

25. Primary mirror panels of the Millimetron Space Observatory.

Author

Navarro, Ramón, Geyl, Roland, Golubev, Evgeny S., Kotsur, Elena K., Arkhipov, Mikhail Yu., Smirnov, Andrey V., Lyakhovec, Andrey O., and Pyshnov, Victor N.

Published

2020

26. Bragg-like microcavity formed by collision of single-cycle self-induced transparency light pulses in a resonant medium.

Author

Arkhipov R, Pakhomov A, Diachkova O, Arkhipov M, and Rosanov N

Abstract

The coherent interaction of extremely short light pulses with a resonant medium can result in the formation of population difference gratings. Such gratings have been created by pulses that are π/2 or smaller. This paper demonstrates that a microcavity with Bragg-like mirrors can be formed by colliding two single-cycle attosecond self-induced transparency pulses in the center of a two-level medium. The parameters of this structure can be quickly adjusted by increasing the number of collisions, which showcases the ability to control the dynamic properties of the medium on a sub-cycle time scale by using attosecond pulses.

Published

2024

27. Sub-10 fs unipolar pulses of a tailored waveshape from a multilevel resonant medium.

Author

Pakhomov A, Rosanov N, Arkhipov M, and Arkhipov R

Abstract

We theoretically demonstrate the possibility to tune the temporal waveform of unipolar pulses of femtosecond duration emitted from a multilevel resonant medium. This is achieved through the control of the medium response by a properly adjusted sequence of half-cycle unipolar or quasi-unipolar driving pulses and the spatial density profile of resonant centers along the medium layer. We show the production of unipolar optical pulses of varying profiles, like rectangular or triangular ones, from an extended layer of a multilevel medium.

Published

2023

28. Generation of an ultrahigh-repetition-rate optical half-cycle pulse train in the nested quantum wells.

Author

Arkhipov M, Pakhomov A, Arkhipov R, and Rosanov N

Abstract

We propose a simple quantum system, namely, a nested quantum-well structure, which is able to generate a train of half-cycle pulses of a few-femtosecond duration when driven by a static electric field. We theoretically investigate the emission of such a structure and its dependence on the parameters of the quantum wells. It is shown that the production of a regular output pulse train with tunable properties and the pulse repetition frequencies of tens of terahertz is possible in certain parameter ranges. We expect the suggested structure can be used as an ultra-compact source of subcycle pulses in the optical range.

Published

2023

29. Self-Stopping of Light.

Author

Arkhipov M, Arkhipov R, Babushkin I, and Rosanov N

Abstract

Here, we show that light can bring itself to a complete standstill (self-stop) via self-interaction mediated by the resonant nonlinearity in a fully homogeneous medium. An intense few-cycle pulse, entering the medium, may reshape to form a strongly coupled light-matter bundle, in which the energy is transferred from light to the medium and back periodically on the single-cycle scale. Such oscillating structure can decelerate, alter its propagation direction, and even completely stop, depending on the state of its internal degrees of freedom. This phenomenon is expected to occur in the few-cycle strong-field regime when the Rabi oscillation frequency becomes comparable with the frequency of the incoming light.

Published

2022

30. Temporal differentiation and integration of few-cycle pulses by ultrathin metallic films.

Author

Pakhomov A, Arkhipov R, Arkhipov M, and Rosanov N

Abstract

We study theoretically the temporal transformations of few-cycle pulses upon linear interaction with ultrathin metallic films. We show that under certain conditions on the film thickness and the pulse spectrum, one obtains the temporal differentiation of the pulse shape in transmission and the temporal integration in reflection. In contrast to previous studies, these transformations are obtained for the field of few-cycle pulses itself instead of the slowly varying pulse envelope. These results open up new opportunities for the control of the temporal pulse profile in ultrafast optics.

Published

2021

31. Single-cycle pulse compression in dense resonant media.

Author

Arkhipov R, Arkhipov M, Demircan A, Morgner U, Babushkin I, and Rosanov N

Abstract

We propose here a new approach for compression and frequency up-conversion of short optical pulses in the regime of extreme nonlinear optics in optically dense absorbing media, providing an alternative route to attosecond-scale pulses at high frequencies. This method is based on dynamics of self-induced transparency (SIT) pulses of nearly single cycle duration, leading to single-cycle-scale Rabi oscillations in the medium. The sub-cycle components of an incident pulse behave as separate SIT-pulses, approaching each other and self-compressing, resulting in the threefold compression in time and frequency up-conversion by the same factor. As we show, the scheme can be cascaded, staying at the subsequent stage with nearly the same compression and up-conversion ratio. In this way, as our simulations show, after only few micrometers of propagation, a 700 nm wavelength single cycle pulse can be compressed to a pulse of 200 attoseconds duration located in XUV frequency range.

Published

2021

32. Selective ultrafast control of multi-level quantum systems by subcycle and unipolar pulses.

Author

Arkhipov R, Pakhomov A, Arkhipov M, Demircan A, Morgner U, Rosanov N, and Babushkin I

Abstract

The most typical way to optically control population of atomic and molecular systems is to illuminate them with radiation, resonant to the relevant transitions. Here we consider a possibility to control populations with the subcycle and even unipolar pulses, containing less than one oscillation of electric field. Despite the spectrum of such pulses covers several levels at once, we show that it is possible to selectively excite the levels of our choice by varying the driving pulse shape, duration or time delay between consecutive pulses. The pulses which are not unipolar, but have a peak of electric field of one polarity much higher (and shorter) than of the opposite one, are also capable for such control.

Published

2020