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ferromagnetism in undoped and Fe-doped TiO 2 nanoribbons. J. Phys. D-Appl. Phys ., 47 , 235304(14pp.). 18. Dolat, D., Mozia, S., Ohtani, B., & Morawski, A. W. (2013). Nitrogen, iron-single modified (N-TiO 2 , Fe-TiO 2 ) and co-modified (Fe,N-TiO 2 ) rutile titanium dioxide as visible-light active photocatalysts. Chem. Eng. J ., 225 , 358–364. 19. Guskos, N., Glenis, S., Zolnierkiewicz, G., Guskos, A., Typek, J., Berczynski, P., Dolat, D., Grzmil, B., Ohtani, B., & Morawski, A. W. (2014). Magnetic resonance study of co-modified (Fe,N)-TiO 2 . J. Alloy. Compd. , 606 , 32

observation of r.f. transitions and laser beat resonances in oriented Na vapour. Il Nuovo Cimento B 36 (1) 5-20 DOI: 10.1007/BF02749417 Dancheva, Y., Alzetta, G., Cartalava, S., Taslakov, M., & Andreeva, C. (2000). Coherent effects on the Zeeman sublevels of hyperfine states in optical pumping of Rb by monomode diode laser. Optics Communications, 178 (1-3), 103-110. DOI: 10.1016/S0030-4018(00)00643-X Auzinsh, M., Ferber, R., Gahbauer F., Jarmola, A., & Kalvans, L. (2009). Nonlinear magneto-optical resonances at D 1 excitation of 85 Rb and 87 Rb for partially resolved

References Gilhujs KGA, Gigeret ML, Bick U. Computerized analysis of breast lesions in three dimensions using dynamic magnetic-resonance imaging. Med. Phys. 1998; 25: 1647-1654. Glaßer S, Preim U, Tönnies K, Preim B. A visual analytics approach to diagnosis of breast DCE-MRI data. Computers & Graphics 2010; 34: 602 - 611. Nishiura M, Yasuhiro T, Murase K. Evaluation of time-intensity curves in ductal carcinoma in situ (DCIS) and mastopathy obtained using dynamic contrast enhanced magnetic resonance imaging. Magnetic Resonance Imaging 2011; 29: 99-105. Bella V

REFERENCES 1. Sakuma H. Coronary CT versus MR angiography: the role of MR angiography. Radiology . 2011;258:340-349. 2. Watzinger N, Maier R, Reiter U, et al. Clinical applications of cardiovascular magnetic resonance. Curr Pharm Des . 2005;11:457-475. 3. Pilz G, Heer T, Harrer E, et al. Clinical applications of cardiac magnetic resonance imaging. Minerva Cardioangiol . 2009;57:299-313. 4. Stokes MB, Nerlekar N, Moir S, et al. The evolving role of cardiac magnetic resonance imaging in the assessment of cardiovascular disease. Aust Fam Physician . 2016

Study. Patient and polyp characteristics associated with high-grade dysplasia in colorectal adenomas. Gastroenterology 1990; 98 : 371-9. Luboldt W, Debatin JF. Virtual endoscopic colonography based on 3D MRI. Abdom Imaging 1998; 23 : 568-72. Lauenstein TC, Herborn CU, Vogt FM, Gohde SC, Debatin JF, Ruehm SG. Dark lumen MR-colonography: initial experience. Rofo 2001; 173 : 785-9. Schoenenberger AW, Bauerfeind P, Krestin GP, Debatin JF. Virtual colonoscopy with magnetic resonance imaging: in vitro evaluation of a new concept. Gastroenterology 1997; 112

Thirteenth International Offshore and Polar Engineering Conference. Honolulu, Hawaii, USA 25-30 May 2003. Molin, B., 2001. On the piston and sloshing modes in moonpools. Journal of Fluid Mechanics, 430, pp.27-50. Park, S.J., 2009. Hydrodynamic characteristics of moonpool shapes. MSc Thesis. Pusan National University. Taylor, R.E., Sung, L. and Taylor, P.H., 2009. Gap resonances in focused wave groups. Proceedings of the 23rd International Workshop on Water Waves and Floating Body. Je-Ju, Korea 13-16 April 2008. Veer, R. and Tholen, H.J., 2008. Added resistance of moonpools

REFERENCES 1. Başar Y., Eller C., Krätzig W.B. (1987), Finite element procedures for parametric resonance phenomena of arbitrary elastic shell structures, Computational Mechanics , 2, 89-98. 2. Bąk Ł., Noga S., Skrzat A., Stachowicz F. (2013), Dynamic analysis of vibrating screener system, Journal of Physics: Conference Series , 451, 012028. 3. de Silva C. (2005), Vibration and shock handbook , Taylor & Francis, Boca Raton. 4. Hagedorn P., Koval L.R. (1971), On the parametric stability of a Timoshenko beam subjected to a periodic axial load, Ingenieur

References 1. Glashow JL, Katz R, Schneider M, Scott N. Double blind assessment of the value of magnetic resonance imaging in the diagnosis of anterior cruciate and meniscal lesions. J Bone Joint Surg (Am). 1989; 71: 113-9. 2. Fischer SP, Fox JM, Del PW, Friedman MJ, Snyder SJ, Ferkel RD. Accuracy of diagnoses from magnetic resonance imaging of the knee. J Bone Joint Surg (Am). 1991; 73:2-10. 3. Heron CW, Calvert PT. Three-dimensional gradientecho MR imaging of the knee. Comparison with arthroscopy in 100 patients. Radiolology. 1992; 183: 839-44. 4. Scott WN. The

, 49, 11-18. 4. Carmichael S., Griffiths I.R.: Tumours involving the brachial plexus in seven dogs. Vet Rec 1981, 108, 435-437. 5. Kraft S., Ehrhart E.J., Gall D., Klopp L., Gavin P., Tucker R., Bagley R., Kippens H., DeHaan C., Pedroia V., Partington B., Olby N.: Magnetic resonance imaging chracteristics of peripheral nerve sheath tumors of the canine brachial plexus in 18 dogs. Vet Radiol Ultrasound 2007, 48, 1-7. 6. Zhalniarovich Y., Adamiak Z., Holak P., Przyborowska P., Pomianowski A.: Diagnosis of a brachial plexus tumour using magnetic resonance imaging

. Mat. Sci. 23 (2010), 164. [10] Dallas P., Tucek J., Jancik D., Kolar M., Panacek A., Zboril R., Adv. Funct. Mater. 20 (2010), 2347. http://dx.doi.org/10.1002/adfm.200902370 [11] Guskos N., Zolnierkiewicz G., Typek J., Guskos A., Berczynski P., Petridis D., Centr. Eur. J. Phys. 90 (2012), 166–171. http://dx.doi.org/10.2478/s11534-011-0085-5 [12] Guskos N. et al., J. Appl. Phys. 93 (2003), 9834. http://dx.doi.org/10.1063/1.1574593 [13] Kliava J., Electron Magnetic Resonance of Nanoparticles: Superparamagnetic Resonance, in Magnetic Nanoparticles (ed S. P. Gubin