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Gobel

Ch. Lierse, H. Gobel, E. Kaciniel, R. Link, W. Nuding, Ch. Sauerwein, H. Wiacker Tomographic Inspection of nuclear Waste Containers... [Pg.496]

Gobel, J., Saussy, D. L., and Goetiz, A. S. (1999). Development of scintillation-proximity assays for alpha adrenoceptors. J. Pharmacol. Toxicol. Meth. 42 237. [Pg.254]

U. Lemmer. R. F. Malm, Y. Wada, A. Greiner, H. Basslcv. E.O. Gobel, Time resolved luminescence study of recombination processes in electroluminescent polymers, Appl. Phys. Lett. 1993, 62, 2827. [Pg.491]

Joss A, Keller E, Alder AC, Gobel A, McArdell CS, Temes T, Slegrlst H (2005) Removal of pharmaceuticals and fragrances in biological wastewater treatment. Water Res 39(14) 3139-3152... [Pg.226]

Von Wintzingerode F., Landt O., Ehrlich A., Gobel U. B. Peptide nucleic acid-mediated PGR clamping as a useful supplement in the determination of microbial diversity. Appl. Environ. Microbiol. 2000 66 549-557. [Pg.176]

Mahrt RF, Siegner U, Lemmer U, Hopmeier M, Scherf U, Heim S, Gobel EO, MiiUen K,... [Pg.219]

Mahrt RF, Haring Bolivar P, Pauck T, Wegmann G, Lemmer U, Siegner U, Hopmeier M, Hennig R, Scherf U, Mullen K, Kurz H, Bassler H, Gobel EO (1996) Phys Rev B 54 1759 Cimrovd V, Neher D, Scherf U (1996) Appl Phys Lett 69 608... [Pg.219]

Giese B, Kopping B, Gobel T, Dickhaut J, Thoma G, Kulicke KJ, Trach F (1996) In Paquette LA (ed) Organic Reactions. Wiley, New York, p 301... [Pg.59]

Gobel, U., Hoehne, J., Lox, E.S. et al. (1999) Durability Aspects of NOx Storage Catalysts for Direct Injection Gasoline Vehicles, SAE Technical Paper 99FL-103. [Pg.206]

Moter, A. Gobel, U. B. Fluorescence in situ hybridization (FISH) for direct visualization of microorganisms. J. Microbiol. Meth. 2000, 41, 85-112. [Pg.18]

Cf. the reviews on Distorted Molecules Perturbation Design, Preparation and Structures by H. Bock, K, Ruppert, C. Nather, Z. Havlas, H.-F. Herrmann, C. Arad, I. Gobel, A. John, J. Meu-ret, S. Nick, A. Rauschenbach, W. Seitz, T. Vaupel, B. Solouki, Angew. Chem. 1992, 104, 564 Angew. Chem. Int. Ed. Engl. 1992, 31, 550 and references therein. [Pg.359]

Rotating anode, conventional optics Rotating anode, Gobel mirror optics Synchrotron, bending magnet (DORIS, A2) Synchrotron, insertion device (ESRF, ID2)... [Pg.59]

Laboratory X-ray sources emit highly divergent radiation. With conventional optics the major part of this radiation is discarded by a slit system and a monochromator. Both components can be replaced by a Gobel mirror [73,74], Figure 4.5 shows its construction and application. As a result a parallel and highly monochromatic primary beam is received. Replacement of conventional incident beam optics (cf. Fig. 2.2) by a Gobel mirror increases the primary beam intensity by a factor of 10-50. [Pg.64]

Nanobeam optics with beam diameters of several nanometers are presently developed at the ESRF. Using a Kirkpatrick-Baez optical system (cf. Fig. 4.9) beam diameters of 80 nm have been achieved. The Kirkpatrick-Baez system is made from two successively reflecting, orthogonal mirrors that are bent into elliptical shape by mechanical benders. The focused flux is strongly increased by deposition of a graded multilayer structure similar to that used with the parabolic Gobel mirror. [Pg.66]

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See also in sourсe #XX -- [ Pg.4 ]

See also in sourсe #XX -- [ Pg.12 ]



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