J
J. C. Waddington
Researcher at University of Liverpool
Publications - 187
Citations - 3248
J. C. Waddington is an academic researcher from University of Liverpool. The author has contributed to research in topics: Excited state & Yrast. The author has an hindex of 29, co-authored 187 publications receiving 2950 citations. Previous affiliations of J. C. Waddington include Natural Sciences and Engineering Research Council & McMaster-Carr.
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Journal ArticleDOI
A high-stringency blueprint of the human proteome
Subash Adhikari,Edouard C. Nice,Edouard C. Nice,Eric W. Deutsch,Lydie Lane,Gilbert S. Omenn,Stephen R. Pennington,Young Ki Paik,Christopher M. Overall,Fernando J. Corrales,Ileana M. Cristea,Jennifer E. Van Eyk,Mathias Uhlén,Cecilia Lindskog,Daniel W. Chan,Amos Marc Bairoch,J. C. Waddington,Joshua L Justice,Joshua LaBaer,Henry Rodriguez,Fuchu He,Markus Kostrzewa,Peipei Ping,Rebekah L. Gundry,Peter Stewart,Sanjeeva Srivastava,Sudhir Srivastava,Fábio C. S. Nogueira,Gilberto B. Domont,Yves Vandenbrouck,Maggie P.Y. Lam,Sara A. Wennersten,Juan Antonio Vizcaíno,Marc R. Wilkins,Jochen M. Schwenk,Emma Lundberg,Nuno Bandeira,György Marko-Varga,Susan T. Weintraub,Charles Pineau,Ulrike Kusebauch,Robert L. Moritz,Seong Beom Ahn,Magnus Palmblad,Michael Snyder,Ruedi Aebersold,Ruedi Aebersold,Mark S. Baker,Mark S. Baker +48 more
TL;DR: On the occasion of the Human Proteome Project’s tenth anniversary, a 90.4% complete high-stringency human proteome blueprint is reported, highlighting potential roles the human proteomes plays in the understanding, diagnosis and treatment of cancers, cardiovascular and infectious diseases.
Journal ArticleDOI
Frequency and Alignment Classification of Multiple Band Crossings
L. L. Riedinger,O. Andersen,S. Frauendorf,J.D. Garrett,J. J. Gaardhøje,G.B. Hagemann,B. Herskind,Y. V. Makovetzky,J. C. Waddington,M. Guttormsen,P.O. Tjøm +10 more
TL;DR: In this article, the fingerprint of a band crossing based upon the crossing frequency and gain in aligned angular momentum is demonstrated and the results compared to cranking-model calculations to suggest quasiparticle assignments for the bands.
Journal ArticleDOI
Superdeformed band up to spin ~(127/2 in 149 Gd
B. Haas,P. Taras,Stephane Flibotte,F. Banville,J. Gascon,S. Cournoyer,S. Monaro,N. Nadon,D. Prévost,D. Thibault,J. K. Johansson,D. M. Tucker,J. C. Waddington,H.R. Andrews,G.C. Ball,D. Horn,D.C. Radford,D. Ward,C. St. Pierre,J. Dudek +19 more
TL;DR: The data suggest that to populate superdeformed bands significantly one must form cold residual nuclei, and the trends in scrI (1) and (2) are consistent with very weak pairing effects.
Journal ArticleDOI
Decay Out of the Doubly Magic Superdeformed Band in the N=Z Nucleus 60Zn
C. E. Svensson,Dirk Rudolph,C. Baktash,M. A. Bentley,J. A. Cameron,Martin Carpenter,M. Devlin,J. Eberth,Stephane Flibotte,A. Galindo-Uribarri,G. Hackman,D. S. Haslip,R. V. F. Janssens,D. R. LaFosse,T. J. Lampman,I. Y. Lee,F. Lerma,A. O. Macchiavelli,J. M. Nieminen,S. D. Paul,D. C. Radford,P. Reiter,L. L. Riedinger,D. G. Sarantites,B. Schaly,D. Seweryniak,O. Thelen,H.G. Thomas,J. C. Waddington,Daniel Ward,W. Weintraub,J. N. Wilson,Chang-Hong Yu,A. V. Afanasjev,Ingemar Ragnarsson +34 more
TL;DR: The doubly magic superdeformed band in the N = Z nucleus Zn-60 has been identified in this article, and the link transitions connecting this band to the yrast line provide the first spin, parity, and excitation energy measurements for super deformed states in the A similar to 60 region.
Journal ArticleDOI
The half-life of 176Lu by a γ–γ coincidence measurement
TL;DR: The half-life of 176Lu has been measured to be T 1/2/2 = 3.59/0.05/1.05 as discussed by the authors, which is the longest known half life for a Ge detector.