[1]  M. Ostafin, J. Pietrzak, P. Kamasa: Digital frequency modulation in an NQR spectrometer. J. Phys. E: Sci. Instrum. 11, 45-48 (1978)

[2]  P. Kamasa, F.I. Tóth, J. Kasprzak, J. Pietrzak: Multimode averager and Fourier transform system for pulse NMR/NQR spectrometers. Nauchn. Appar. 3(3), 31-38 (1988)

[3]  É. Kisdi-Koszó, L.F. Kiss, L.K. Varga, P. Kamasa: Curie temperature measurement of metastable alloys using high heating rate. Mater. Sci. Eng. A 226-228, 689-692 (1997)

[4]  I. Jacyna-Onyszkiewicz, P. Kamasa: Magnetic domain behaviour of Cu-ferrite doped with small quantities of Cd or Be ions. J. Phys. IV (France) 8, Pr2/315-318 (1998)

[5]  P. Kamasa, P. Myslinski, B. Varga, Z. Jurasz: Investigation of the oxidation process in rod and foil iron samples by thermomagnetic measurements. Acta Phys. Slovaca 48, 857-860 (1998)

[6]  A. Lovas, L.F. Kiss, B. Varga, P. Kamasa, I. Balogh, I. Bakonyi: Survey of magnetic properties during and after amorphous-nanocrystalline transformation. J. Phys. IV (France) 8, Pr2/291-298 (1998)

[7]  B. Varga, J. Takács, A. Lovas, P. Kamasa, F. Zhou, J. Vandlik: Comparison of the thermo-magnetic and thermal effects during nanocrystallization of Fe_76.5‑xCu₁Nb_xSi_13.5B₉ glassy precursors. J. Mater. Sci. Technol. 14, 323-326 (1998)

[8]  I. Bakonyi, E. Tóth-Kádár, J. Tóth, T. Becsei, T. Tarnóczi, P. Kamasa: Magnetic and electrical transport properties of electrodeposited Ni-Cu alloys and Ni₈₁Cu₁₉/Cu multilayers. J. Phys. Cond. Matter 11, 963-973 (1999)

[9]  P. Myśliński, P. Kamasa, J. Vandlik: Analysis of alloys using DTA and TD methods with simultaneous thermomagnetic studies. J. Therm. Anal. Calorim. 56, 233-238 (1999)

[10] P. Kamasa, P. Myśliński: Study of the thermal effects during microstructural changes of metastable alloys by means of temperature-modulated thermomagnetometry. Thermochimica Acta 337, 51-54 (1999)

[11] E. Tóth-Kádár, L. Péter, T. Becsei, J. Tóth, L. Pogány, T. Tarnóczi, P. Kamasa, I. Bakonyi, G. Láng, Á. Cziráki, W. Schwarzacher: Preparation and magnetoresistance characteristics of electrodeposited Ni-Cu alloys and Ni-Cu/Cu multilayers. J. Electrochem. Soc. 147, 3311-3318 (2000)

[12] A. Lovas, L.F. Kiss, B. Varga, P. Kamasa, I. Varga, L. Pogány: Relaxation and early stage of crystallization in FINEMET-type nanocrystal precursor. Mater. Sci. Forum 373-376, 225-228 (2001)

[13] P. Myśliński, P. Kamasa, A. Wasik: Effects of TiN coating of iron detected by temperature modulated thermomagnetometry and dilatometry. J. Therm. Anal. Calorim. 64, 1201-1207 (2001)

[14] P. Myśliński, P. Kamasa, A. Wasik: Application of temperature modulated relative dilatometry - Temperatures of adhesion degradation. J. Therm. Anal. Calorim. 65, 553-559 (2001)

[15] M. Pyda, M.L. Di Lorenzo, J. Pak, P. Kamasa, A. Buzin, J. Grebowicz, B. Wunderlich: Reversible and irreversible heat capacity of poly[carbonyl(ethylene-co-propylene)] by temperature-modulated calorimetry. J. Polymer Sci. B 39, 1565-1577 (2001)

[16] A. I. Buzin, P. Kamasa, M. Pyda, B. Wunderlich: Application of a Wollaston wire probe for quantitative thermal analysis. Thermochimica Acta 381, 9-18 (2002)

[17] P. Kamasa, A. Buzin, M. Pyda, B. Wunderlich: The use of infra-red light-modulated temperature in DSC created by pulse-width modulation. Thermochimica Acta 381, 139-146 (2002)

[18] P. Kamasa, M. Merzlyakov, M. Pyda, J. Pak, C. Schick and B. Wunderlich: Multi-frequency heat capacity measured with different types of TMDSC. Thermochimica Acta 392‑393, 195-207 (2002)

[19] P. Kamasa, P. Myslinski: Thermal analysis of the ferromagnetic materials in the region of Curie temperature by temperature-modulated DTA. Czech J. Phys. 52, 159-162 (2002)

[20] P. Myslinski, P. Kamasa, A. Wasik: Irreversing thermal expansivity of materials coated with adhesive thin films detected by modulated-temperature dilatometry and differential thermal analysis. Thermochimica Acta 387, 131-140 (2002)

[21] P. Myslinski, P. Kamasa, A. Wasik, M. Pyda, B. Wunderlich: Characterization of the ceramic coating of iron with TiN by temperature-modulated dilatometry. Thermochimica Acta 392‑393, 187-193 (2002)

[22] P. Kamasa, A. Buzin, M. Pyda, J. Kovac, Á. Cziráki, A. Lovas, I. Bakonyi: Temperature-modulated thermal and magnetic analysis of amorphous alloys around magnetic and structural phase transitions. J. Magn. Magn. Mater. 257, 274-283 (2003)

[23] P. Kamasa, M. Pyda, A. Buzin, B. Wunderlich: Frequency dependence of the heat capacity of polystyrene in the glass transition region measured by multi-frequency light-modulated DSC. Thermochimica Acta 396, 109-117 (2003)

[24] P. Myslinski, W. Precht, L. Kukielka, P. Kamasa, K. Pietruszka, P. Malek: A possibility of application of MTDIL to the residual stress analysis. J. Therm. Anal. Calorim. 77, 253-258 (2004).

[25] P. Kamasa, P. Myslinski, J. Staskiewicz: Instantaneous coefficient of thermal expansion by temperature-modulated dilatometry. To be published in Czechoslovak J. Phys. 54 Suppl. D, D627-D630 (2004).

[26] Myslinski P, Precht W, Kukielka L, Kamasa P, Pietruszka K, Malek P: A possibility of application of MTDIL to the residual stresses analysis - The hard coating-substrate system. J. Therm. Anal. Calorim. 77, 253-258 (2004).

[27] P. Kamasa, P. Myśliński, M. Pyda, Thermal expansivity of polystyrene determined by multi-frequency dilatometry; Thermochim. Acta, 433, 99-103 (2005)

[28] P. Kamasa, P. Myśliński, M. Pyda: Experimental aspects of temperature-modulated dilatometry of polymers, Thermochimica Acta, 442, 48-51 (2006).

[29] A. Lovas, A. Bárdos, P. Kamasa, J. Kovác, K. Bán: Annealing experiment on bulk amorphous alloys around the glass transition temperature, J. Magn. Magn. Mater. 304 (2006) e657-e659.

[30] P. Kamasa, P. Myśliński: Changes of thermal, mechanical and magnetic properties of an amorphous Fe₈₀Cr₅B₁₅ alloy during magnetic and structural phase transition, Cent. Eur. J. Phys. 4 (2) (2006) 178-186.

[31] P.Tompa, P. Banki, M. Bokor, P. Kamasa, K. Tompa: Protein-water and protein-buffer interactions in the aqueous solution of an intrinsically unstructured plant dehydrin: NMR intensity and DSC aspects, Biophysical Journal, 91 (2006) 2243-2249.

[32] P. Kamasa, M. Bokor, M. Pyda, K. Tompa: DSC approach for the investigation of mobile water fraction in aqueous solution of NaCl and Tris buffer, Thermochimica Acta, 464 1-2 (2007) 29-34.

[33] P. Myśliński, P. Kamasa, A. Gilewicz, J. Staśkiewicz: Detection of mechanical effects of adhesive thin films on substrate using the modulated–temperature dilatometry (MT DIL), J. Therm. Anal. Calorim. 88, (2007) 737-740

[34] P. Kamasa, L.K. Varga, P. Myśliński, S.G. Rassolov, V. Maksimov, B. Idzikowski: Crystallization of amorphous Fe-Cr-B alloys investigated with high heating rates, Materials Science-Poland 4 26 (2008) 947-952.

[35] K. Tompa, P. Bánki, M. Bokor, P. Kamasa, G. Lasanda, P. Tompa: Interfacial water at protein surfaces: wide-line NMR and DSC characterization of hydration in Ubiquitin solutions, Biophysical J. 96 (2009) 2789-2798.

[36] Bokor, M., K. Tompa, P. Bánki, P. Kamasa, P. Rácz, P. Tompa: Hydration Water/Interfacial Water in Crystalline Lens, Exp. Eye Res. 91 1 (2010) 76-84.

 

[37] S.K. Srivastava, V.K. Srivastava, A. Joshi, R. Chatterjee, P. Kamasa, L. Varga, K.V. Rao: A low temperature anomaly observed in off-stoichiometric Ni-Mn-Ga system studied by Higher Harmonic ac-Susceptibility Measurements, Applied Physics Letters 97 (2010) 122505 1-3.

 

Conference Proceedings

[38] J. Pietrzak, J. Kasprzak, P. Kamasa: A pulsed nuclear quadrupole resonance spectrometer. In: Proc. Conf. Radio- and Microwave Spectroscopy (Poznań, 1979), pp.117-121; published also in: A.Mickiewicz University, Poznań, Series of Physics, 40, 355-359, (1980)

[39] P. Kamasa: Joint time-frequency analysis in NMR spectroscopy. In: Proc. XXVIIth Polish Seminar on NMR (Cracow, 1994). Institute of Nuclear Physics (Cracow, 1995), pp. 47-50

[40] P. Kamasa: The digital phase detection in cw NMR broad-line spectroscopy. In: Proc. XXVIIIth Polish Seminar on NMR (Cracow, 1995). Institute of Nuclear Physics (Cracow, 1996), pp. 320-322

[41] P. Kamasa, L.K. Varga, É. Kisdi-Koszó, J. Vandlik: Complex testing system for ferromagnetic materials by thermomagnetic measurement. In: Suppl. to the Proc. 9^th Int. Conf. on Rapidly Quenched and Metastable Alloys (Bratislava, 1996). Eds. P. Duhaj, P. Mrafko and P. Svec (Elsevier, Amsterdam, 1997), pp. 280-283

[42] P. Kamasa, J. Duchiewicz: Digital phase-sensitive detector using Gabor transform. In: Proc. XXXth Polish Seminar on NMR (Cracow, 1997). Institute of Nuclear Physics (Cracow, 1998), pp. 201-204

[43] P. Kamasa, M. Pyda, M. Merzlyakov, C. Schick, B. Wunderlich: Multi-frequency heat capacity measurement by different types of temperature modulation. In: Proc. 28^th Annual NATAS (North American Thermal Analysis Society) Conference (Orlando, FL, USA, 2000). Eds. K.J. Kociba and T. Kirchner-Jean (North American Thermal Analysis Society, Orlando, FL, 2000), pp. 889-894

[44] P. Myslinski, P. Kamasa, A. Wasik, M. Pyda, B. Wunderlich: Characterization of the ceramic coating of iron with TiN by temperature-modulated thermomagnetometry, thermal dilatometry, and DTA. In: Proc. 28^th Annual NATAS (North American Thermal Analysis Society) Conference (Orlando, FL, USA, 2000). Eds. K.J. Kociba and T. Kirchner-Jean (North American Thermal Analysis Society, Orlando, FL, 2000), pp. 88-93

[45] A. Buzin, P. Kamasa, M. Pyda, B. Wunderlich: Application of Wollastone wire probes for quantitative thermal analysis. In: Proc. 29^th Annual NATAS (North American Thermal Analysis Society) Conference (St. Louis, MO, USA, 2001). Eds. K.J. Kociba and B.J. Kociba (North American Thermal Analysis Society, Orlando, FL, 2001), pp. 649-654

[46] P. Kamasa, A. Buzin, M. Pyda, B.Wunderlich: The use of infra-red light-modulated temperature in DSC by application of pulse-width modulation. In: Proc. 29^th Annual NATAS (North American Thermal Analysis Society) Conference (St. Louis, MO, USA, 2001). Eds. K.J. Kociba and B.J. Kociba (North American Thermal Analysis Society, Orlando, FL, 2001), pp. 600-604

[47] P. Kamasa, P. Myslinski, M. Pyda: Thermal expansion coefficient determination by temperature-modulated dilatometry. In: Proc. 31^st Annual NATAS (North American Thermal Analysis Society) Conference (Albuquerque, NM, USA, 2003). Ed. M.J. Rich (Michigan State University, MI, USA, 2003), on CD-ROM; published also in NATAS Notes, Fall 2003, Vol.35 No.3 pp. 17-21.

[48] P. Kamasa, P. Myśliński, J. Staśkiewicz: Instantaneous coefficient of thermal expansion determined by temperature-modulated dilatometry; presented at 12^thCzech and Slovak Conference on Magnetism (Kosice, Slovakia, July 12-15, 2004).

[49] P. Myslinski, P. Kamasa. A. Gilewicz, J. Staskiewicz: Detection of mechanical effects of adhesive thin films on substrate using the modulated-temperature dilatometry (MT DIL), 9th European Symposium on Thermal Analysis and Calorimetry ESTAC 9 (Krakow, Poland, 27-31 August, 2006).

[50] P.Kamasa, M. Bokor, K. Tompa: DSC approach for the investigationof mobile water fractions in aqueous solutions of intrinsically unfolded and globular protein, buffer and sodium chloride, EMB/SPINE2 Workshop on Intrinsically Unfolded Proteins, (Budapest, May 20-24, 2007).

[51] P. Kamasa, M.Bokor, A.I. Buzin, J. Kardos, K. Tompa, P. Tompa: Interfacial region characteristics of b₂-microglobulin monomer and polymer in frozen solution, 6^th International Symposium on Molecular Order and Mobility in Polymer Systems, (St. Petersburg, Russia, 2-6 June, 2008).

[52] A.I. Buzin, P.V. Dmitryakov, E.I. Grigoriev, P. Kamasa: Solid-state polymerization of p-xylylene, 6^th International Symposium on Molecular Order and Mobility in Polymer Systems, (St. Petersburg, Russia, 2-6 June, 2008).

[53] P. Kamasa, M. Bokor, K. Tompa: Identification the type of mobile water in frozen NaCl, KCl aqueous and TRIS buffered solutions by DSC and NMR methods, Physics of Materials ’09, Kosice, Slovakia, 14-16 October 2009.

[54] A.I. Buzin, P. Kamasa, P.V. Dmitryakov, E.I. Grigoriev, S.A. Zavialov, S.N. Chvalun, I.V. Razumovskaya: Application of the DSC for the in-situ investigation of para-xylylene polymerization, Conference on Macromolecular nanoobjects and polymer nanocomposites, Zvenigorod, Russia, November 8-13, 2009.

 

[55] P. Kamasa, M. Bokor, K. Tompa, A.I. Buzin: Polymerization of a-synuclein protein investigated by thermal analysis supported by NMR spectroscopy, POLYMERS 2010, Moscow 21-25 June 2010.

 

[56] A.I. Buzin, P. Kamasa, P.V. Dmitryakov, E.I. Grigoriev, S.A. Zavyalov, S.N. Chvalun, I.V. Razumovskaya: Investigation of the polymerizationoh p-xylene by in situ DSC, POLYMERS 2010, Moscow 21-25 June 2010.

 

[57] P. Kamasa, M. Bokor, A. Gelencsér, P. Tompa, K. Tompa: DSC characterization of protein aqueous solutions, 8^th European Biophysics Congress, Budapest 23-27 Aug. 2011 (in Eur. Biophys. J. 40 supplement1 (2011) P-583).

 

[58] T. Verebélyi, M. Bokor, P. Kamasa, P. Tompa, K. Tompa: Interfacial water in b-casein molecular surfaces: wide-line NMR, relaxation and DSC characterization, 8^th European Biophysics Congress, Budapest 23-27 Aug. 2011 (in Eur. Biophys. J. 40 supplement1 (2011) P-666).

 

Patents

[59] P. Kamasa et al.: Circuit for frequency sweep and modulation in spectrometers, Patent PRL 130841 (22 February 1982).

[60] P. Kamasa et al.: Method and apparatus for measurement resonance frequency of passive resonance circuits, Patent PRL 130193 (22 March 1982).

[61] P. Kamasa et al.: Circuit for spectrum registration and measurement theirs frequencies, Patent PRL 238325 (25 March 1986).