Results 231 to 240 of about 1,383,826 (295)

Stepped collisional energy improves protein acylation identification by eliminating positional bias of cyclic immonium ions. [PDF]

Commun Chem
Zhu ZY, Mao PZ, Tarn C, Cao Y.
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Adaptive control for microgrid frequency stability integrating battery energy storage and photovoltaic. [PDF]

Sci Rep
Salama HS, Ali A, Mahmoud K.
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Comprehensive Metabolomic-Transcriptomic Analysis of the Regulatory Effects of Armillaria mellea Source Differences on Secondary Metabolism in Gastrodia elata. [PDF]

Biology (Basel)
Han D, Yang C, Bao L, Dong L, He H, Tang P, Zhang Y, Xiong F, Liu H, Yang S.   +9 more
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Hydrochemical characteristics and significance of coalbed water and coalbed methane well-produced water in the Suzhou mining area. [PDF]

Sci Rep
Du M, Zhao M, Wu C.
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Flame-retardant Cl-substituted electrolyte for low-temperature and high-voltage lithium-ion batteries with fast interfacial kinetics. [PDF]

Natl Sci Rev
Yang Y, Zhang J, Yu H, Liu X, Liu Y, Li B, Li J, Ren S, Fan Z, Li Y, Li K, Wu L, Gao Q, Yan Z, Gao X, Zhao Q.   +15 more
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Characterization and Source Analysis of Water-Soluble Ions in PM_2.5 at Hainan: Temporal Variation and Long-Range Transport. [PDF]

Toxics
Xu X, Xu W, Meng X, Cao X, Chu B, Du C, Xie R, Zeng Z, Sheng H, Lin Y, Yan W, He H.   +11 more
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ION-SOURCE POSITIONER

, 1959
Burton, Roy F., Jones, W. Barclay, Corum, Charles A.   +2 more
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Ion sources for ion machining applications

12th International Electric Propulsion Conference, 1976
Ion sources with beam diameters of 2.5, 10, and 20 cm have been developed for ion machining applications. All three of these sources use carbon grids to minimize accelerator grid sputtering. A new starting circuit Is also employed that uses only passive components for initiation of the discharge. The two larger sources use a flat multipole chamber with
Harold R. Kaufman, Paul D. Reader, Gerald C. Isaacson   +2 more
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A Magnetic Ion Source

Review of Scientific Instruments, 1949
An ion source for particle accelerators is described. The ion source utilizes an axial magnetic field for collimation of ion and electron beams and provides an electric field-free region for ion formation. The ion source has afforded yields of 500 microamperes of resolved protons when used in conjunction with a 200-kv high voltage set. A feature of the
C, BAILEY, D L, DRUKEY, F, OPPENHEIMER
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Linac4 H− ion sources

Review of Scientific Instruments, 2015
CERN’s 160 MeV H− linear accelerator (Linac4) is a key constituent of the injector chain upgrade of the Large Hadron Collider that is being installed and commissioned. A cesiated surface ion source prototype is being tested and has delivered a beam intensity of 45 mA within an emittance of 0.3 π ⋅ mm ⋅ mrad.
J, Lettry, D, Aguglia, J, Alessi, P, Andersson, S, Bertolo, S, Briefi, A, Butterworth, Y, Coutron, A, Dallocchio, N, David, E, Chaudet, D, Faircloth, U, Fantz, D A, Fink, M, Garlasche, A, Grudiev, R, Guida, J, Hansen, M, Haase, A, Hatayama, A, Jones, I, Koszar, J-B, Lallement, A M, Lombardi, C, Machado, C, Mastrostefano, S, Mathot, S, Mattei, P, Moyret, D, Nisbet, K, Nishida, M, O'Neil, M, Paoluzzi, R, Scrivens, T, Shibata, D, Steyaert, N, Thaus, G, Voulgarakis   +37 more
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