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  1. Article ; Online: Appropriate use of p-values.

    Jones, Michael P / Browning, Kirsteen / Corsetti, Maura / Keszthelyi, Daniel / Shin, Andrea / Singh, Rajan / Visaggi, Pierfrancesco / Zerbib, Frank

    Neurogastroenterology and motility

    2023  Volume 35, Issue 11, Page(s) e14664

    Language English
    Publishing date 2023-09-11
    Publishing country England
    Document type Editorial
    ZDB-ID 1186328-6
    ISSN 1365-2982 ; 1350-1925
    ISSN (online) 1365-2982
    ISSN 1350-1925
    DOI 10.1111/nmo.14664
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    In stock of ZB MED Cologne/Königswinter

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  2. Book ; Online: Demonstration of a monocrystalline GaAs-$\beta$-Ga$_2$O$_3$ p-n heterojunction

    Zhou, Jie / Sheikhi, Moheb / Dheenan, Ashok / Abbasi, Haris / Gong, Jiarui / Liu, Yang / Adamo, Carolina / Marshall, Patrick / Wriedt, Nathan / Cheung, Clincy / Qiu, Shuoyang / Ng, Tien Khee / Gan, Qiaoqiang / Gambin, Vincent / Ooi, Boon S. / Rajan, Siddharth / Ma, Zhenqiang

    2023  

    Abstract: ... _2$O$_3$ p-n heterojunction by employing semiconductor grafting technology. The heterojunction was ... created by lifting off and transfer printing a p-type GaAs single crystal nanomembrane to an Al$_2$O$_3$ ...

    Abstract In this work, we report the fabrication and characterizations of a monocrystalline GaAs/$\beta$-Ga$_2$O$_3$ p-n heterojunction by employing semiconductor grafting technology. The heterojunction was created by lifting off and transfer printing a p-type GaAs single crystal nanomembrane to an Al$_2$O$_3$-coated n-type$\beta$-Ga$_2$O$_3$ epitaxial substrate. The resultant heterojunction diodes exhibit remarkable performance metrics, including an ideality factor of 1.23, a high rectification ratio of 8.04E9 at +/- 4V, and a turn on voltage of 2.35 V. Furthermore, at +5 V, the diode displays a large current density of 2500 A/cm$^2$ along with a low ON resistance of 2 m$\Omega\cdot$cm$^2$.

    Comment: 14 pages, 5 figures
    Keywords Physics - Applied Physics ; Condensed Matter - Materials Science
    Publishing date 2023-10-05
    Publishing country us
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  3. Article ; Online: A novel c.1937T>C (p.Leu646Pro) missense mutation in a patient with Leber congenital amaurosis.

    Kaur, Savleen / Sukhija, Jaspreet / Kaur, Anupriya / Srivastava, Priyanka / Katoch, Deeksha / Singh, Simar Rajan / Chaudhary, Kiran

    Journal of AAPOS : the official publication of the American Association for Pediatric Ophthalmology and Strabismus

    2022  Volume 26, Issue 1, Page(s) 34–35

    Abstract: ... A novel c.1937T>C (p.Leu646Pro) missense mutation was found in exon 9 of the tyrosine kinase domain ...

    Abstract Over 21 genes have been associated with the inherited retinal dystrophy, Leber congenital amaurosis (LCA). A comprehensive genotype-phenotype correlation in such heterogenous cases helps guide further genetic studies and therapies. We report 2 children (10-month-old girl and an 8-month-old boy) who presented with low vision in the first year of life. Both patients manifested nystagmus, sluggish pupillary reactions, hyperopia, and normal fundus. Focussed exome sequencing was performed because LCA was suspected. A novel c.1937T>C (p.Leu646Pro) missense mutation was found in exon 9 of the tyrosine kinase domain of the GUCY2D gene in both patients.
    MeSH term(s) DNA Mutational Analysis ; Humans ; Leber Congenital Amaurosis/diagnosis ; Leber Congenital Amaurosis/genetics ; Mutation ; Mutation, Missense ; Pedigree ; Retinal Dystrophies
    Language English
    Publishing date 2022-01-31
    Publishing country United States
    Document type Case Reports ; Journal Article
    ZDB-ID 1412476-2
    ISSN 1528-3933 ; 1091-8531
    ISSN (online) 1528-3933
    ISSN 1091-8531
    DOI 10.1016/j.jaapos.2021.08.300
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    In stock of ZB MED Cologne/Königswinter

    Zs.A 5188: Show issues Location:
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  4. Article: Comparison of arterial to end-tidal carbon dioxide gradient P (a-ET)CO

    Veerasamy, Sugashini / Kumar, Lakshmi / Kartha, Anandajith / Rajan, Sunil / Kumar, Niranjan / Purushottaman, Shyam S

    Indian journal of anaesthesia

    2022  Volume 66, Issue Suppl 5, Page(s) S243–S249

    Abstract: ... to volume-controlled ventilation (Group VCV) or pressure-controlled ventilation (Group PCV). The P (a-ET)CO ... Results: The P (a-ET)CO: Conclusion: Pressure-controlled ventilation reduces P (a-ET)CO ...

    Abstract Background and aims: Robotic surgery is increasingly prevalent as an advancement in care. Steep head-down positions in pelvic surgery can increase the ventilation-perfusion mismatch and increase ventilatory requirements to offset carbon dioxide (CO
    Methods: Fifty-one patients, 18-75 y, American Society of Anesthesiologists I-III undergoing robotic surgery in Trendelenburg position were randomised to volume-controlled ventilation (Group VCV) or pressure-controlled ventilation (Group PCV). The P (a-ET)CO
    Results: The P (a-ET)CO
    Conclusion: Pressure-controlled ventilation reduces P (a-ET)CO
    Language English
    Publishing date 2022-08-12
    Publishing country India
    Document type Journal Article
    ZDB-ID 412570-8
    ISSN 0019-5049
    ISSN 0019-5049
    DOI 10.4103/ija.ija_902_21
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  5. Article: Remembering Professor P. K. Appukuttan

    Jagadeesh, S. / MV, Raman / Rajan, Sheeja

    Indian Journal of Plastic Surgery

    2021  Volume 54, Issue 03, Page(s) 381–382

    Language English
    Publishing date 2021-09-01
    Publisher Thieme Medical and Scientific Publishers Pvt. Ltd.
    Publishing place Stuttgart ; New York
    Document type Article
    ZDB-ID 2118680-7
    ISSN 1998-376X ; 0970-0358
    ISSN (online) 1998-376X
    ISSN 0970-0358
    DOI 10.1055/s-0041-1736683
    Database Thieme publisher's database

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  6. Article ; Online: Constraining the p-Mode-g-Mode Tidal Instability with GW170817.

    Abbott, B P / Abbott, R / Abbott, T D / Acernese, F / Ackley, K / Adams, C / Adams, T / Addesso, P / Adhikari, R X / Adya, V B / Affeldt, C / Agarwal, B / Agathos, M / Agatsuma, K / Aggarwal, N / Aguiar, O D / Aiello, L / Ain, A / Ajith, P /
    Allen, B / Allen, G / Allocca, A / Aloy, M A / Altin, P A / Amato, A / Ananyeva, A / Anderson, S B / Anderson, W G / Angelova, S V / Antier, S / Appert, S / Arai, K / Araya, M C / Areeda, J S / Arène, M / Arnaud, N / Arun, K G / Ascenzi, S / Ashton, G / Ast, M / Aston, S M / Astone, P / Atallah, D V / Aubin, F / Aufmuth, P / Aulbert, C / AultONeal, K / Austin, C / Avila-Alvarez, A / Babak, S / Bacon, P / Badaracco, F / Bader, M K M / Bae, S / Baker, P T / Baldaccini, F / Ballardin, G / Ballmer, S W / Banagiri, S / Barayoga, J C / Barclay, S E / Barish, B C / Barker, D / Barkett, K / Barnum, S / Barone, F / Barr, B / Barsotti, L / Barsuglia, M / Barta, D / Bartlett, J / Bartos, I / Bassiri, R / Basti, A / Batch, J C / Bawaj, M / Bayley, J C / Bazzan, M / Bécsy, B / Beer, C / Bejger, M / Belahcene, I / Bell, A S / Beniwal, D / Bensch, M / Berger, B K / Bergmann, G / Bernuzzi, S / Bero, J J / Berry, C P L / Bersanetti, D / Bertolini, A / Betzwieser, J / Bhandare, R / Bilenko, I A / Bilgili, S A / Billingsley, G / Billman, C R / Birch, J / Birney, R / Birnholtz, O / Biscans, S / Biscoveanu, S / Bisht, A / Bitossi, M / Bizouard, M A / Blackburn, J K / Blackman, J / Blair, C D / Blair, D G / Blair, R M / Bloemen, S / Bock, O / Bode, N / Boer, M / Boetzel, Y / Bogaert, G / Bohe, A / Bondu, F / Bonilla, E / Bonnand, R / Booker, P / Boom, B A / Booth, C D / Bork, R / Boschi, V / Bose, S / Bossie, K / Bossilkov, V / Bosveld, J / Bouffanais, Y / Bozzi, A / Bradaschia, C / Brady, P R / Bramley, A / Branchesi, M / Brau, J E / Briant, T / Brighenti, F / Brillet, A / Brinkmann, M / Brisson, V / Brockill, P / Brooks, A F / Brown, D D / Brunett, S / Buchanan, C C / Buikema, A / Bulik, T / Bulten, H J / Buonanno, A / Buskulic, D / Buy, C / Byer, R L / Cabero, M / Cadonati, L / Cagnoli, G / Cahillane, C / Calderón Bustillo, J / Callister, T A / Calloni, E / Camp, J B / Canepa, M / Canizares, P / Cannon, K C / Cao, H / Cao, J / Capano, C D / Capocasa, E / Carbognani, F / Caride, S / Carney, M F / Casanueva Diaz, J / Casentini, C / Caudill, S / Cavaglià, M / Cavalier, F / Cavalieri, R / Cella, G / Cepeda, C B / Cerdá-Durán, P / Cerretani, G / Cesarini, E / Chaibi, O / Chamberlin, S J / Chan, M / Chao, S / Charlton, P / Chase, E / Chassande-Mottin, E / Chatterjee, D / Chatziioannou, Katerina / Cheeseboro, B D / Chen, H Y / Chen, X / Chen, Y / Cheng, H-P / Chia, H Y / Chincarini, A / Chiummo, A / Chmiel, T / Cho, H S / Cho, M / Chow, J H / Christensen, N / Chu, Q / Chua, A J K / Chua, S / Chung, K W / Chung, S / Ciani, G / Ciobanu, A A / Ciolfi, R / Cipriano, F / Cirelli, C E / Cirone, A / Clara, F / Clark, J A / Clearwater, P / Cleva, F / Cocchieri, C / Coccia, E / Cohadon, P-F / Cohen, D / Colla, A / Collette, C G / Collins, C / Cominsky, L R / Constancio, M / Conti, L / Cooper, S J / Corban, P / Corbitt, T R / Cordero-Carrión, I / Corley, K R / Cornish, N / Corsi, A / Cortese, S / Costa, C A / Cotesta, R / Coughlin, M W / Coughlin, S B / Coulon, J-P / Countryman, S T / Couvares, P / Covas, P B / Cowan, E E / Coward, D M / Cowart, M J / Coyne, D C / Coyne, R / Creighton, J D E / Creighton, T D / Cripe, J / Crowder, S G / Cullen, T J / Cumming, A / Cunningham, L / Cuoco, E / Canton, T Dal / Dálya, G / Danilishin, S L / D'Antonio, S / Danzmann, K / Dasgupta, A / Costa, C F Da Silva / Dattilo, V / Dave, I / Davier, M / Davis, D / Daw, E J / Day, B / DeBra, D / Deenadayalan, M / Degallaix, J / De Laurentis, M / Deléglise, S / Del Pozzo, W / Demos, N / Denker, T / Dent, T / De Pietri, R / Derby, J / Dergachev, V / De Rosa, R / De Rossi, C / DeSalvo, R / de Varona, O / Dhurandhar, S / Díaz, M C / Di Fiore, L / Di Giovanni, M / Di Girolamo, T / Di Lieto, A / Ding, B / Di Pace, S / Di Palma, I / Di Renzo, F / Dmitriev, A / Doctor, Z / Dolique, V / Donovan, F / Dooley, K L / Doravari, S / Dorrington, I / Dovale Álvarez, M / Downes, T P / Drago, M / Dreissigacker, C / Driggers, J C / Du, Z / Dupej, P / Dwyer, S E / Easter, P J / Edo, T B / Edwards, M C / Effler, A / Eggenstein, H-B / Ehrens, P / Eichholz, J / Eikenberry, S S / Eisenmann, M / Eisenstein, R A / Essick, R C / Estelles, H / Estevez, D / Etienne, Z B / Etzel, T / Evans, M / Evans, T M / Fafone, V / Fair, H / Fairhurst, S / Fan, X / Farinon, S / Farr, B / Farr, W M / Fauchon-Jones, E J / Favata, M / Fays, M / Fee, C / Fehrmann, H / Feicht, J / Fejer, M M / Feng, F / Fernandez-Galiana, A / Ferrante, I / Ferreira, E C / Ferrini, F / Fidecaro, F / Fiori, I / Fiorucci, D / Fishbach, M / Fisher, R P / Fishner, J M / Fitz-Axen, M / Flaminio, R / Fletcher, M / Fong, H / Font, J A / Forsyth, P W F / Forsyth, S S / Fournier, J-D / Frasca, S / Frasconi, F / Frei, Z / Freise, A / Frey, R / Frey, V / Fritschel, P / Frolov, V V / Fulda, P / Fyffe, M / Gabbard, H A / Gadre, B U / Gaebel, S M / Gair, J R / Gammaitoni, L / Ganija, M R / Gaonkar, S G / Garcia, A / García-Quirós, C / Garufi, F / Gateley, B / Gaudio, S / Gaur, G / Gayathri, V / Gemme, G / Genin, E / Gennai, A / George, D / George, J / Gergely, L / Germain, V / Ghonge, S / Ghosh, Abhirup / Ghosh, Archisman / Ghosh, S / Giacomazzo, B / Giaime, J A / Giardina, K D / Giazotto, A / Gill, K / Giordano, G / Glover, L / Goetz, E / Goetz, R / Goncharov, B / González, G / Gonzalez Castro, J M / Gopakumar, A / Gorodetsky, M L / Gossan, S E / Gosselin, M / Gouaty, R / Grado, A / Graef, C / Granata, M / Grant, A / Gras, S / Gray, C / Greco, G / Green, A C / Green, R / Gretarsson, E M / Groot, P / Grote, H / Grunewald, S / Gruning, P / Guidi, G M / Gulati, H K / Guo, X / Gupta, A / Gupta, M K / Gushwa, K E / Gustafson, E K / Gustafson, R / Halim, O / Hall, B R / Hall, E D / Hamilton, E Z / Hamilton, H F / Hammond, G / Haney, M / Hanke, M M / Hanks, J / Hanna, C / Hannam, M D / Hannuksela, O A / Hanson, J / Hardwick, T / Harms, J / Harry, G M / Harry, I W / Hart, M J / Haster, C-J / Haughian, K / Healy, J / Heidmann, A / Heintze, M C / Heitmann, H / Hello, P / Hemming, G / Hendry, M / Heng, I S / Hennig, J / Heptonstall, A W / Hernandez, F J / Heurs, M / Hild, S / Hinderer, T / Hoak, D / Hochheim, S / Hofman, D / Holland, N A / Holt, K / Holz, D E / Hopkins, P / Horst, C / Hough, J / Houston, E A / Howell, E J / Hreibi, A / Huerta, E A / Huet, D / Hughey, B / Hulko, M / Husa, S / Huttner, S H / Huynh-Dinh, T / Iess, A / Indik, N / Ingram, C / Inta, R / Intini, G / Isa, H N / Isac, J-M / Isi, M / Iyer, B R / Izumi, K / Jacqmin, T / Jani, K / Jaranowski, P / Johnson, D S / Johnson, W W / Jones, D I / Jones, R / Jonker, R J G / Ju, L / Junker, J / Kalaghatgi, C V / Kalogera, V / Kamai, B / Kandhasamy, S / Kang, G / Kanner, J B / Kapadia, S J / Karki, S / Karvinen, K S / Kasprzack, M / Katolik, M / Katsanevas, S / Katsavounidis, E / Katzman, W / Kaufer, S / Kawabe, K / Keerthana, N V / Kéfélian, F / Keitel, D / Kemball, A J / Kennedy, R / Key, J S / Khalili, F Y / Khamesra, B / Khan, H / Khan, I / Khan, S / Khan, Z / Khazanov, E A / Kijbunchoo, N / Kim, Chunglee / Kim, J C / Kim, K / Kim, W / Kim, W S / Kim, Y-M / King, E J / King, P J / Kinley-Hanlon, M / Kirchhoff, R / Kissel, J S / Kleybolte, L / Klimenko, S / Knowles, T D / Koch, P / Koehlenbeck, S M / Koley, S / Kondrashov, V / Kontos, A / Korobko, M / Korth, W Z / Kowalska, I / Kozak, D B / Krämer, C / Kringel, V / Krishnan, B / Królak, A / Kuehn, G / Kumar, P / Kumar, R / Kumar, S / Kuo, L / Kutynia, A / Kwang, S / Lackey, B D / Lai, K H / Landry, M / Lang, R N / Lange, J / Lantz, B / Lanza, R K / Lartaux-Vollard, A / Lasky, P D / Laxen, M / Lazzarini, A / Lazzaro, C / Leaci, P / Leavey, S / Lee, C H / Lee, H K / Lee, H M / Lee, H W / Lee, K / Lehmann, J / Lenon, A / Leonardi, M / Leroy, N / Letendre, N / Levin, Y / Li, J / Li, T G F / Li, X / Linker, S D / Littenberg, T B / Liu, J / Liu, X / Lo, R K L / Lockerbie, N A / London, L T / Longo, A / Lorenzini, M / Loriette, V / Lormand, M / Losurdo, G / Lough, J D / Lovelace, G / Lück, H / Lumaca, D / Lundgren, A P / Lynch, R / Ma, Y / Macas, R / Macfoy, S / 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/ Oppermann, P / Oram, Richard J / O'Reilly, B / Ormiston, R / Ortega, L F / O'Shaughnessy, R / Ossokine, S / Ottaway, D J / Overmier, H / Owen, B J / Pace, A E / Pagano, G / Page, J / Page, M A / Pai, A / Pai, S A / Palamos, J R / Palashov, O / Palomba, C / Pal-Singh, A / Pan, Howard / Pan, Huang-Wei / Pang, B / Pang, P T H / Pankow, C / Pannarale, F / Pant, B C / Paoletti, F / Paoli, A / Papa, M A / Parida, A / Parker, W / Pascucci, D / Pasqualetti, A / Passaquieti, R / Passuello, D / Patil, M / Patricelli, B / Pearlstone, B L / Pedersen, C / Pedraza, M / Pedurand, R / Pekowsky, L / Pele, A / Penn, S / Perez, C J / Perreca, A / Perri, L M / Pfeiffer, H P / Phelps, M / Phukon, K S / Piccinni, O J / Pichot, M / Piergiovanni, F / Pierro, V / Pillant, G / Pinard, L / Pinto, I M / Pirello, M / Pitkin, M / Poggiani, R / Popolizio, P / Porter, E K / Possenti, L / Post, A / Powell, J / Prasad, J / Pratt, J W W / Pratten, G / Predoi, V / Prestegard, T / Principe, M / Privitera, S / Prodi, G A / Prokhorov, L G / Puncken, O / Punturo, M / Puppo, P / Pürrer, M / Qi, H / Quetschke, V / Quintero, E A / Quitzow-James, R / Rabeling, D S / Radkins, H / Raffai, P / Raja, S / Rajan, C / Rajbhandari, B / Rakhmanov, M / Ramirez, K E / Ramos-Buades, A / Rana, Javed / Rapagnani, P / Raymond, V / Razzano, M / Read, J / Regimbau, T / Rei, L / Reid, S / Reitze, D H / Ren, W / Ricci, F / Ricker, P M / Riles, K / Rizzo, M / Robertson, N A / Robie, R / Robinet, F / Robson, T / Rocchi, A / Rolland, L / Rollins, J G / Roma, V J / Romano, R / Romel, C L / Romie, J H / Rosińska, D / Ross, M P / Rowan, S / Rüdiger, A / Ruggi, P / Rutins, G / Ryan, K / Sachdev, S / Sadecki, T / Sakellariadou, M / Salconi, L / Saleem, M / Salemi, F / Samajdar, A / Sammut, L / Sampson, L M / Sanchez, E J / Sanchez, L E / Sanchis-Gual, N / Sandberg, V / Sanders, J R / Sarin, N / Sassolas, B / Saulson, P R / Sauter, O / Savage, R L / Sawadsky, A / Schale, P / Scheel, M / Scheuer, J / Schmidt, P / Schnabel, R / Schofield, R M S / Schönbeck, A / Schreiber, E / Schuette, D / Schulte, B W / Schutz, B F / Schwalbe, S G / Scott, J / Scott, S M / Seidel, E / Sellers, D / Sengupta, A S / Sentenac, D / Sequino, V / Sergeev, A / Setyawati, Y / Shaddock, D A / Shaffer, T J / Shah, A A / Shahriar, M S / Shaner, M B / Shao, L / Shapiro, B / Shawhan, P / Shen, H / Shoemaker, D H / Shoemaker, D M / Siellez, K / Siemens, X / Sieniawska, M / Sigg, D / Silva, A D / Singer, L P / Singh, A / Singhal, A / Sintes, A M / Slagmolen, B J J / Slaven-Blair, T J / Smith, B / Smith, J R / Smith, R J E / Somala, S / Son, E J / Sorazu, B / Sorrentino, F / Souradeep, T / Spencer, A P / Srivastava, A K / Staats, K / Steinke, M / Steinlechner, J / Steinlechner, S / Steinmeyer, D / Steltner, B / Stevenson, S P / Stocks, D / Stone, R / Stops, D J / Strain, K A / Stratta, G / Strigin, S E / Strunk, A / Sturani, R / Stuver, A L / Summerscales, T Z / Sun, L / Sunil, S / Suresh, J / Sutton, P J / Swinkels, B L / Szczepańczyk, M J / Tacca, M / Tait, S C / Talbot, C / Talukder, D / Tanner, D B / Tápai, M / Taracchini, A / Tasson, J D / Taylor, J A / Taylor, R / Tewari, S V / Theeg, T / Thies, F / Thomas, E G / Thomas, M / Thomas, P / Thorne, K A / Thrane, E / Tiwari, S / Tiwari, V / Tokmakov, K V / Toland, K / Tonelli, M / Tornasi, Z / Torres-Forné, A / Torrie, C I / Töyrä, D / Travasso, F / Traylor, G / Trinastic, J / Tringali, M C / Trozzo, L / Tsang, K W / Tse, M / Tso, R / Tsuna, D / Tsukada, L / Tuyenbayev, D / Ueno, K / Ugolini, D / Urban, A L / Usman, S A / Vahlbruch, H / Vajente, G / Valdes, G / van Bakel, N / van Beuzekom, M / van den Brand, J F J / Van Den Broeck, C / Vander-Hyde, D C / van der Schaaf, L / van Heijningen, J V / van Veggel, A A / Vardaro, M / Varma, V / Vass, S / Vasúth, M / Vecchio, A / Vedovato, G / Veitch, J / Veitch, P J / Venkateswara, K / Venugopalan, G / Verkindt, D / Vetrano, F / Viceré, A / Viets, A D / Vinciguerra, S / Vine, D J / Vinet, J-Y / Vitale, S / Vo, T / Vocca, H / Vorvick, C / Vyatchanin, S P / Wade, A R / Wade, L E / Wade, M / Walet, R / Walker, M / Wallace, L / Walsh, S / Wang, G / Wang, H / Wang, J Z / Wang, W H / Wang, Y F / Ward, R L / Warner, J / Was, M / Watchi, J / Weaver, B / Wei, L-W / Weinert, M / Weinstein, A J / Weiss, R / Wellmann, F / Wen, L / Wessel, E K / Weßels, P / Westerweck, J / Wette, K / Whelan, J T / Whiting, B F / Whittle, C / Wilken, D / Williams, D / Williams, R D / Williamson, A R / Willis, J L / Willke, B / Wimmer, M H / Winkler, W / Wipf, C C / Wittel, H / Woan, G / Woehler, J / Wofford, J K / Wong, W K / Worden, J / Wright, J L / Wu, D S / Wysocki, D M / Xiao, S / Yam, W / Yamamoto, H / Yancey, C C / Yang, L / Yap, M J / Yazback, M / Yu, Hang / Yu, Haocun / Yvert, M / Zadrożny, A / Zanolin, M / Zelenova, T / Zendri, J-P / Zevin, M / Zhang, J / Zhang, L / Zhang, M / Zhang, T / Zhang, Y-H / Zhao, C / Zhou, M / Zhou, Z / Zhu, S J / Zhu, X J / Zimmerman, A B / Zucker, M E / Zweizig, J / Weinberg, N N

    Physical review letters

    2019  Volume 122, Issue 6, Page(s) 61104

    Abstract: We analyze the impact of a proposed tidal instability coupling p modes and g modes within neutron ... we compute the Bayes factor (lnB_{!pg}^{pg}) comparing our p-g model to a standard one. We find ... that the observed signal is consistent with waveform models that neglect p-g effects, with lnB_{!pg}^{pg}=0.03_{-0 ...

    Abstract We analyze the impact of a proposed tidal instability coupling p modes and g modes within neutron stars on GW170817. This nonresonant instability transfers energy from the orbit of the binary to internal modes of the stars, accelerating the gravitational-wave driven inspiral. We model the impact of this instability on the phasing of the gravitational wave signal using three parameters per star: an overall amplitude, a saturation frequency, and a spectral index. Incorporating these additional parameters, we compute the Bayes factor (lnB_{!pg}^{pg}) comparing our p-g model to a standard one. We find that the observed signal is consistent with waveform models that neglect p-g effects, with lnB_{!pg}^{pg}=0.03_{-0.58}^{+0.70} (maximum a posteriori and 90% credible region). By injecting simulated signals that do not include p-g effects and recovering them with the p-g model, we show that there is a ≃50% probability of obtaining similar lnB_{!pg}^{pg} even when p-g effects are absent. We find that the p-g amplitude for 1.4  M_{⊙} neutron stars is constrained to less than a few tenths of the theoretical maximum, with maxima a posteriori near one-tenth this maximum and p-g saturation frequency ∼70  Hz. This suggests that there are less than a few hundred excited modes, assuming they all saturate by wave breaking. For comparison, theoretical upper bounds suggest ≲10^{3} modes saturate by wave breaking. Thus, the measured constraints only rule out extreme values of the p-g parameters. They also imply that the instability dissipates ≲10^{51}  erg over the entire inspiral, i.e., less than a few percent of the energy radiated as gravitational waves.
    Language English
    Publishing date 2019-03-01
    Publishing country United States
    Document type Journal Article
    ZDB-ID 208853-8
    ISSN 1079-7114 ; 0031-9007
    ISSN (online) 1079-7114
    ISSN 0031-9007
    DOI 10.1103/PhysRevLett.122.061104
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  7. Article ; Online: Water Pollutants p-Cresol Detection Based on Au-ZnO Nanoparticles Modified Tapered Optical Fiber.

    Wang, Yu / Zhu, Guo / Li, Muyang / Singh, Ragini / Marques, Carlos / Min, Rui / Kaushik, Brajesh Kumar / Zhang, Bingyuan / Jha, Rajan / Kumar, Santosh

    IEEE transactions on nanobioscience

    2021  Volume 20, Issue 3, Page(s) 377–384

    Abstract: In this work, a localized plasmon-based sensor is developed for para-cresol (p-cresol ... the specificity of the sensor, the probes are functionalized with tyrosinase enzyme. Different solutions of p ...

    Abstract In this work, a localized plasmon-based sensor is developed for para-cresol (p-cresol) - a water pollutant detection. A nonadiabatic [Formula: see text] of tapered optical fiber (TOF) has been experimentally fabricated and computationally analyzed using beam propagation method. For optimization of sensor's performance, two probes are proposed, where probe 1 is immobilized with gold nanoparticles (AuNPs) and probe 2 is immobilized with the AuNPs along with zinc oxide nanoparticles (ZnO-NPs). The synthesized metal nanomaterials were characterized by ultraviolet-visible spectrophotometer (UV-vis spectrophotometer) and transmission electron microscope (HR-TEM). The nanomaterials coating on the surface of the sensing probe were characterized by a scanning electron microscope (SEM). Thereafter, to increase the specificity of the sensor, the probes are functionalized with tyrosinase enzyme. Different solutions of p-cresol in the concentration range of [Formula: see text] - [Formula: see text] are prepared in an artificial urine solution for sensing purposes. Different analytes such as uric acid, β -cyclodextrin, L-alanine, and glycine are prepared for selectivity measurement. The linearity range, sensitivity, and limit of detection (LOD) of probe 1 are [Formula: see text] - [Formula: see text], 7.2 nm/mM (accuracy 0.977), and [Formula: see text], respectively; and for probe 2 are [Formula: see text] - [Formula: see text], 5.6 nm/mM (accuracy 0.981), and [Formula: see text], respectively. Thus, the overall performance of probe 2 is quite better due to the inclusion of ZnO-NPs that increase the biocompatibility of sensor probe. The proposed sensor structure has potential applications in the food industry and clinical medicine.
    MeSH term(s) Cresols ; Gold ; Metal Nanoparticles ; Optical Fibers ; Water Pollutants ; Zinc Oxide
    Chemical Substances Cresols ; Water Pollutants ; 4-cresol (1MXY2UM8NV) ; Gold (7440-57-5) ; Zinc Oxide (SOI2LOH54Z)
    Language English
    Publishing date 2021-06-30
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1558-2639
    ISSN (online) 1558-2639
    DOI 10.1109/TNB.2021.3082856
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  8. Book ; Thesis: Die erbliche Difizienz des Cytochrom P-450IID6

    Somasundaram, Rajan

    genetischer Risikofaktor für die Karzinome des Larynx und des oberen Speiseweges? ; Eine Fall-Kontroll-Studie

    1991  

    Author's details vorgelegt von Rajan Somasundaram
    Size 1 Mikrofiche : 25x
    Document type Book ; Thesis
    Thesis / German Habilitation thesis Berlin, Freie Univ., Diss., 1991
    Note Mikroreprod. eines Ms. III, 73 Bl.: graph. Darst.
    HBZ-ID HT004315824
    Database Catalogue ZB MED Medicine, Health

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    Shelf markLoan statusLocation
    1992 MB 93 order for loan Magazin

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  9. Book ; Online: Band alignment of grafted monocrystalline Si (001)/$\beta$-Ga$_2$O$_3$ (010) p-n heterojunction determined by X-ray photoelectron spectroscopy

    Gong, Jiarui / Zhou, Jie / Dheenan, Ashok / Sheikhi, Moheb / Alema, Fikadu / Ng, Tien Khee / Pasayat, Shubhra S. / Gan, Qiaoqiang / Osinsky, Andrei / Gambin, Vincent / Gupta, Chirag / Rajan, Siddharth / Ooi, Boon S. / Ma, Zhenqiang

    2023  

    Abstract: ... approach towards lattice-mismatched $\beta$-Ga$_2$O$_3$-based p-n heterojunctions with high quality ...

    Abstract Beta-phase gallium oxide ($\beta$-Ga$_2$O$_3$) research has gained accelerated pace due to its superiorly large bandgap and commercial availability of large-diameter native substrates. However, the high acceptor activation energy obstructs the development of homojunction bipolar devices employing $\beta$-Ga$_2$O$_3$. The recently demonstrated semiconductor grafting technique provides an alternative and viable approach towards lattice-mismatched $\beta$-Ga$_2$O$_3$-based p-n heterojunctions with high quality interfaces. Understanding and quantitatively characterizing the band alignment of the grafted heterojunctions is crucial for future bipolar device development employing the grafting method. In this work, we present a systematic study of the band alignment in the grafted monocrystalline Si/$\beta$-Ga$_2$O$_3$ heterostructure by employing X-ray photoelectron spectroscopy (XPS). The core level peaks and valence band spectra of the Si, $\beta$-Ga$_2$O$_3$, and the grafted heterojunction were carefully obtained and analyzed. The band diagrams of the Si/$\beta$-Ga$_2$O$_3$ heterostructure were constructed using two individual methods, the core level peak method and the valence band spectrum method, by utilizing the different portions of the measured data. The reconstructed band alignments of the Si/$\beta$-Ga$_2$O$_3$ heterostructure using the two different methods are identical within the error range. The band alignment is also consistent with the prediction from the electron affinity values of Si and $\beta$-Ga$_2$O$_3$. The study suggests that the interface defect density in grafted Si/$\beta$-Ga$_2$O$_3$ heterostructure is at a sufficiently low level such that Fermi level pinning at the interface has been completely avoided and the universal electron affinity rule can be safely employed to construct the band diagrams of grafted monocrystalline Si/$\beta$-Ga$_2$O$_3$ heterostructures.

    Comment: 18 pages, 5 figures
    Keywords Condensed Matter - Materials Science
    Subject code 530
    Publishing date 2023-12-01
    Publishing country us
    Document type Book ; Online
    Database BASE - Bielefeld Academic Search Engine (life sciences selection)

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  10. Article: Electrochemical Impedance Spectroscopy Investigation of Organic Redox Reactions (p-Benzoquinone/Hydroquinone Couple)─Implications to Organic Redox Flow Batteries

    Joy, Miji E. / Tripathi, Anand Kumar / Das, Rubul / Maurya, Rajan / Neergat, Manoj

    Journal of physical chemistry. 2021 Dec. 10, v. 125, no. 50

    2021  

    Abstract: ... the p-benzoquinone (BQ)/hydroquinone (BQH₂) couple because BQ derivatives are common to most of the organic redox ...

    Abstract Redox reactions of organic redox couples are investigated on Nafion-free and Nafion-containing carbon (Vulcan XC-72)-modified glassy carbon disk (GCD) electrodes. The model system chosen is the p-benzoquinone (BQ)/hydroquinone (BQH₂) couple because BQ derivatives are common to most of the organic redox couples. The electrochemical impedance spectroscopy patterns show an unexpected rise in real resistance with time and with rotation speed (rpm). This increase in resistance is remarkable with Nafion-containing GCDs. It seems that the sulfonate group on the polymer chain attacks the redox couple to bind the species to the electrode surface. Moreover, the internal and external mass transfer features are better resolved than their nonbinding inorganic counterparts (V⁴⁺/V⁵⁺ couple). These findings have enormous implications to the development of organic redox flow batteries, organic synthesis, supercapacitors, sensors, and so on.
    Keywords benzoquinones ; carbon ; dielectric spectroscopy ; electrochemical capacitors ; electrodes ; mass transfer ; physical chemistry ; polymers ; sulfonates
    Language English
    Dates of publication 2021-1210
    Size p. 27556-27565.
    Publishing place American Chemical Society
    Document type Article
    ISSN 1932-7455
    DOI 10.1021/acs.jpcc.1c09472
    Database NAL-Catalogue (AGRICOLA)

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