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M Ashley, A Sisodiya, M McEwan, J McAughey and K Prasad

cigarette smoke exposure in smokers in Germany as determined by filter analysis and biomarkers of exposure; Regul. Toxicol. Pharmacol. 55 (2009) 97–109. 8. CORESTA recommended method No. 9 - Determination of nicotine in cigarette filters by gas chromato-graphic analysis (2009); available at: http://www.coresta. org/Recommended_Methods/CRM_09-update2. pdf (Accessed July 2011). 9. ISO 3308: Routine analytical cigarette smoking ma-chine - Definition and standard conditions; International Organisation for Standardisation

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Tamer Dawod, Michael Bremer, Johann Karstens and Martin Werner

therapy for lung cancer. Int J Radiat Oncol Biol Phys. 2007 Jun;68(1):416-425. de Mooy LG. The use of carbon fibers in radiotherapy. Radiother Oncol. 1991;22(2):140-142. Murray B, Forster K, Timmerman R. Frame-based immobilization and targeting for stereotacticbody radiation therapy. Med Dosim. 2007 Summer;32(2):86-91. Polednik M, Abo Madyan Y, Schneider F, Wolff D, Bannach B, Lambrecht U et al. Breast Cancer Working Group (German Cancer Association), Evaluation of Calculation Algorithms

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Sofija Forkapić, Kristina Bikit, Vesna Arsić, Jovana Ilić, Gordana Pantelić and Miloš Živanović

the determination of gamma emitting radionuclides Vienna IAEA 7. Foerster, E., Beck, T., Buchroder, H., Doring, J., & Schmidt, V. (2012). Instruments to measure radon activity concentration or exposure to radon – interlaboratory comparison 2012. Salzgitter: German Federal Office for Radiation Protection (BfS). (BfS-SW-13/12). Foerster E. Beck T. Buchroder H. Doring J. Schmidt V. 2012 Instruments to measure radon activity concentration or exposure to radon – interlaboratory comparison 2012 Salzgitter German Federal Office for

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Jaromír Lachman, Kazimierz Rutkowski, Petr Trávníček, Tomáš Vítěz, Patrik Burg, Jan Turan, Petr Junga and Vladimir Višacki

technique. J. Agric. Food Chem., 51, 2040-2048. Mewis J. and Wagner N.J., 2009. Thixotropy. Advanced in Colloid Interface Sci., 147-149, 214-227. Monteiro S., Piçarra-Pereira M.A., Mesquita P.R., Loureiro V.B., Teixeira A.R., and Ferreira. R.B., 2001. The wide diversity of structurally similar wine proteins. J. Agric. Food Chem., 49, 3999-4010. Organisation Internetionale de la Vignet et du Vin (OIV), 2009 . Internationaler Kodex der önologischen Praxis (in German), 2nd Ed. 160. Tiziani S. and Vodovotz Y., 2005. Rheological effects of soy

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Erzsébet Sóki and István Csige

. Csegzi S. 2001 The Radamon radon detector and an example of application Radiat. Meas. 34 1/6 437 440 10.1016/S1350-4487(01)00202-5 9. Genrich, V. (1993). AlphaGUARD PQ2000/MC50. Multiparameter Radon Monitor. Characterisation of its physical properties under normal climatic and severe environmental conditions. User manual. Frankfurt, Germany: Genitron Instruments GmbH. Genrich V. 1993 AlphaGUARD PQ2000/MC50. Multiparameter Radon Monitor. Characterisation of its physical properties under normal climatic and severe environmental

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Francesco Cardellini, Enrico Chiaberto, Luisella Garlati, Daniele Giuffrida, Federica Leonardi, Mauro Magnoni, Gianfranco Minchillo, Anna Prandstatter, Elena Serena, Rosabianca Trevisi, Rosamaria Tripodi and Miriam Veschetti

References 1. Daraktchieva, Z., Howarth, C. B., & Aigar, R. (2013). Results of the 2012 HPA intercomparison of passive radon detectors. Chilton, Didcot: P.H.E. (PHE-CRCE-001). Daraktchieva Z. Howarth C. B. Aigar R. 2013 Results of the 2012 HPA intercomparison of passive radon detectors Chilton, Didcot P.H.E. (PHE-CRCE-001) 2. Foerster, E., Beck, T., Buchröder, H., Döring, J., & Schmidt, V. (2014). Instruments to measure radon-222 activity concentration or exposure to radon-222: Intercomparison 2014. Germany: BfS

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Mariusz Hasiak, Marcel Miglierini, Narges Amini and Marek Bujdoš

-1335. DOI: 10.1109/TMAG.2011.2175210. 6. Zhang, Z., Sharma, P., & Makino, A. (2012). Role of Si in high Bs and low core-loss Fe85.2B10−xP4Cu0.8Six nano-crystalline alloys. J. Appl. Phys., 112(10), 103902-1-103902-8. DOI: 10.1063/1.4765718. 7. Brand, R. A. (1987). NORMOS programs. University of Duisburg, Germany. 8. Herzer, G. (1989). Grain structure and magnetism of nanocrystalline ferromagnets. IEEE Trans. Magn., 25, 3327-3329. DOI: 10.1109/20.42292.

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Agnieszka Katarzyna Kłopotowska and Paweł Łukaszewski

, 223-228. [7] MCGREEVY J.P., “Frost and salt” weathering: further experimental results, Earth Surface Processes and Landforms, 1982, 7, 475-488. [8] PN-EN 1926: Metody badań kamienia naturalnego, Oznaczenie wytrzymałości na ściskanie, PKNiM, Warszawa 2007. [9] STEIGER M., CHAROLA A.E., Weathering and Deterioration, [in:] S. Siegesmund, R. Snethlage (eds.), Stone in Architecture, Properties, Durability, 4th ed., Springer-Verlag, Berlin-Heidelberg, Germany, 2011, 227-315. [10] WILLIAMS R.B.G., ROBINSON D

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D. Chakarov, I. Veneva, M. Tsveov and T. Tiankov

. Wearable Robots: Biomechatronic Exokeletons, England, John Wil- ley & Sons Ltd, ISBN 978-0-470-5194-4, 2008. [10] T¨ozerem, A. Human Body Dynamics: Classical Mechanis and Human Move- ments, Germany, Berlin Heidelberg, Springer Verlag, 2000.

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Kavan Khaledi, Tom Schanz and Shorash Miro

by Moving Least Squares Methods. Mathematics of Computation, 37 (1981), No. 155, 141-158. [7] Miro, Sh., V. Zarev, D. Hartmann, T. Schanz. Scenario-Driven System Identification for the Specification of Ground Models in Mechanized Tunneling, Ruhr-Universit¨at Bochum, DFG Collaborative Research Center SFB 837 “Inter- action Modelling in Mechanized Tunneling”, Germany. [8] Muller, A., A. Messac. Metamodelling using Extended Radial Basis Func- tions: a Comparative Approach. Engineering with Computers, 21 (2006), 203