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STRUCTURED LIST OF SCIENTIFIC PUBLICATIONS


    A. Construction of pulse magnetic fielf facility (25 T) and pulse magnetometer

  1. Ph.D. Thesis: Pomiary namagnesowania wybranych związków metali 3d w silnych impulsowych polach magnetycznych. [Magnetization measurements of selected compounds of 3d elements in strong pulse magnetic fields]. AGH, Kraków 1975. In Polish.

  2. S. Nizioł, A. Zięba, J. Kulka, Magnetometr impulsowy. [Pulse magnetometer] Zeszyty Naukowe AGH 483, 63-76 (1975). In Polish.

  3. A. Zięba, M. Ładecka and R. Zach, The pressure chamber in a strong pulsed magnetic field: application to magnetic measurements. Physica B 177, 51-52 (1992)


    B. Theory of sample geometry effect and image effect in magnetometers

  1. A. Zięba, S. Foner, Detection coil, sensitivity function, and sample geometry effects for vibrating sample magnetometers, Rev. Sci. Instrum. 53, 1344-54 (1982)

  2. A. Zięba, S. Foner, Superconducting magnet image effects observed with a vibrating sample magnetometer, Rev. Sci. Instrum. 54, 137-45 (1983)

  3. A. Zięba, Image and sample geometry effects in SQUID magnetometers. Rev. Sci. Instrum. 64, 3357-3375 (1993)


    C. Magnetic properties and phase transitions in various ternary compuunds
    TT'X (T, T' transition metal, X - element of the IV group)

  1. H. Bińczycka, A. Szytuła, J. Todorović, T. Zaleski, A. Zięba, Metamagnetism of CoMnSi, Phys. Stat. Sol. (a) 35, k69-72 (1976)

  2. W. Bażela, A. Szytuła, J. Todorović, Z. Tomkowicz, A. Zięba, Crystal and magnetic structure of NiMnGe, phys. stat. sol. (a) 38, 721-9 (1976)

  3. A. Szytuła, Z. Tomkowicz, W. Baż?ela, J. Todorović, A. Zięba, Magnetic structure of NiMnGe, Physica 86-88B, 393-4 (1977)

  4. W. Bażela, A. Szytuła, J. Todorović, A. Zięba, Magnetic properties of the NiMnGe1-xSix system, J. Magn. Magn. Mat. 15-18, 483-4 (1980)

  5. W. Ba?żela, A. Szytuła, J. Todorović, A. Zięba, Crystal and magnetic structure of the NiMnGe1-nSin system, phys. stat. sol. (a) 64, 367-78 (1981)

  6. J. Todorović, A. Szytuła, Z. Tomkowicz, J. Stoch, and A. Zięba, Magnetic phase transition of Mn1.88Cr0.12Sb, Solid State Comm. 45, 693-5 (1983)

  7. S. Nizioł, A. Zięba, R.Zach, M. Baj, L. Dmowski, Structural and magnetic phase transitions in CoxNi1-xMnGe system under pressure, J. Magn. Magn. Mat. 38, 205-13 (1983)


    D. Technical superconductors

  1. T. P. Orlando, T.P. Orlando, A. Zięba, C. P. Braun, B. B. Schwartz, and S. Foner, Low frequency ac losses in multifilamentary superconductors up to 15 tesla, IEEE Trans. Magn. MAG-19, 435-8 (1983)

  2. S. Foner, S. Pourrahimi, C. L. H. Thieme, J. Otubo, H. Zhang, T. P. Orlando, A. Zięba, A. Zaleski, S. Sekine, E. J. McNiff, Jr., and B. Schwartz, Improved performance powder metallurgy and in situ processed multifilamentary superconductors, Advances in Cryigenic Engineering, vol. 30, ed. by A. F. Clark and R. P. Reed, p. 805-11, Plemum 1984.

  3. A. J. Zaleski, T. P. Orlando, A. Zięba, B. B. Schwartz, and S. Foner, Low frequency ac losses at high fields in multifilamentary superconductors, J. Appl. Phys. 56, 3278-83 (1984).


    E. Manganese arsenide, a ferromagnet with the first-order ferro-para transition: experiment (1,2), theory (3), and review (4)

  1. Zięba, K. Selte, A. Kjekshus, A.F. Andresen, Phase Transitions in MnAs, Acta Chem. Scand. A32, 173-77 (1978)

  2. Zięba, Y. Shapira, S. Foner, Magnetic phase diagram of MnAs: Effect of magnetic field on structural and magnetic transitions, Phys. Lett. 91A, 243-5 (1982)

  3. L. Pytlik, and A. Zięba, Magnetic phase diagram of MnAs, J. Magn. Magn. Mat. 51, 199-210 (1985)

  4. A. Zięba, Magnetic phase transitions in manganese arsenide: experiment and phenomenological theory. Zeszyty naukowe AGH, Nr. 1116, Kraków 1987. Short review considered with original papers of the author as habilitation thesis work.
    Available at pdf file: PDF - SOON


    F. Pseudobinary derivatives of manganese arsenide of Mn1-xTxAs (T - 3d metal) and MnAs1-xPx type. Magnetic and pressure phase diagrams, chemical pressure latent ferromagnetism.

  1. K. Selte, A. Kjekshus, A.F. Andresen, A. Zięba, On the magnetic properties of transition metal substituted MnAs, J. Phys. Chem. Solids 38, 719-25 (1977)

  2. A. Zięba, S. Haneda, Y. Yamaguchi, H. Watanabe, Latent ferromagnetism in MnAs1- x Px , phys. stat. sol. (a) 55, k27-29 (1979)

  3. R. Zach, A. Zięba, R. Duraj, Tricritical point in Mn1- tTitAs under hydrostatic pressure, Acta Magnetica, Supp. 1984, str. 365-6.

  4. A. Zięba, H. Fjellvag, and A. Kjekshus, Structural and magnetic properties of Mn1 - tTit As, J. Phys. Chem. Solids 46, 275-86 (1984)

  5. H. Fjellvag, A. Kjekshus, A. F. Andresen, and A. Zięba, Structural and magnetic properties of Mn1 - t Ni t As, J. Magn. Magn. Mat. 61, 61-80 (1986)

  6. H. Fjellvag, A. Kjekshus, A. F. Andresen, and A. Zięba, Structural and magnetic properties of Mn1 - t Fe t As (0.20 ł t ł 0.00), J. Magn. Magn. Mat. 61, 61-80 (1986)

  7. A. Zięba, R. Zach, H. Fjellvag, and A. Kjekshus, Effect of external pressure and the chemical substitution on the phase transitions in MnAs, J. Phys. Chem. Solids 48, 79-89 (1987)

  8. H. Fjellvag, A. Kjekshus, R. Zach and A. Zięba, Mn1 - t (Ti0.5V0.5) t As; diluted manganese monoarsenide with zero overall chemical pressure, J. Phys. Chem. Solids 50, 187-95 (1989)


    G. CrAs - MnAs system: magnetic properties and phase transitions

  1. H. Fjellvag, A. Kjekshus, A. Zięba, Change in character of the paramagnetic to helimagnetic transition in CrAs upon MnAs substitution, J. Magn. Magn. Mat. 67, 354-64 (1987)

  2. A. Zięba, H. Fjellvag, A. Kjekshus, The transition between two kinds of helimagnetism in Mn1 - t Cr t As: the phase diagram and the effect of strong magnetic field, J. Magn. Magn. Mat. 68, 115-132 (1987)

  3. A. Zięba, R. Zach, H. Fjellvag, A. Kjekshus, Mn1 - t Cr t As under pressure: competition between magnetic orderings, J. de Physique, Coll. C8, Supp. no. 12, vol. 49, 203-4 (1988)

  4. H. Fjellvag, P. Karen, A. Kjekshus, A. Zięba, T. Chattopadhyay, and C. Vettier, Pressure induced transitions between para-, heli- and ferromagnetic phases Mn0.61Cr0.39As studied by neutron diffraction, J. Magn. Magn. Mat. 92, 75-79 (1990)

  5. A. Zięba, H. Fjellvag, A. Kjekshus and R. Zach, Mn1 - t Cr t As under pressure: competition between magnetic orderings, Phys. Rev. B 44, 196-204 (1991)


    H. Incoomensurate magnetic structures and Lifshitz point in manganese phosphite: experiments on powders (1,2), Mn0.9Co0.1P single crystal (3-6) and theory (7).

  1. J. Phys. Chem. Solids 45, 709-18 (1984)

  2. A. Zięba, H. Fjellvag, A. Kjekshus, Magnetic phase diagrams of transition metal substituted MnP, J. Phys. Chem. Solids 49, 1087-90 (1988)

  3. H. Fjellvag, A. Kjekshus, A. Zięba, Magnetic phase transitions in an Mn0.9Co0.1P single crystal, Acta Chem. Scand. 44, 8-11 (1980)

  4. C.C. Becerra, A. Zięba, N.F. Oliveira, Jr., and H. Fjellvag, Magnetic phase diagram of a Mn0.9Co0.1P single crystal. Irreversible behavior ina magnetic field. J. Appl. Phys. 67, 5442 (1990)

  5. A. Zięba, C.C. Becerra, N.F. Oliveira, Jr., H. Fjellvag, and A. Kjekshus, Mn0.9Co0.1P in field parallel to hard direction: phase diagram and irreversibility of CONE phase. J. Magn. Magn. Mat. 104-107, 71-72 (1992)

  6. A. Zięba, C.C. Becerra, H. Fjellvag, N.F. Oliveira, Jr., and A. Kjekshus, Mn0.9Co0.1P in external field: Lifshitz point and irreversibility behavior of disordered incommensurate phases, Phys. Rev. B 46, 3380-90 (1992)

  7. A. Zięba, M. Słota, and M. Kucharczyk, Modulated phases, magnetic phase diagrams, and the Lifshitz point in MnP from the mean field theory, Phys. Rev. B 61, 3425-49 (2000)

    I. Various 1978 - 1996

  1. A. Danek, F. Kajzar, A. Zięba, Studies on absorption and elimination of drugs. Fitting of a three exponential equation to the observed drug concentration data after single extravascular administration, Int. J. Clin. Pharmacol. 16, 86-94 (1978).

  2. A. Zięba Punkty wielokrytyczne w trójwymiarowych układach uporządkowanych. Przegląd sytuacji doświadczalnej. V Sympozjum Przejść Fazowych i Zjawisk Krytycznych, Piechowice, październik 1983. Wydane w raportach INTiBS PAN, str. 78-99, Wrocław 1984.

  3. A. Zięba and Z.Łodziana, Effective exponents for de Almeida-Thouless line, Phase Transitions 57, 161-171 (1996)


    J. Application of the silicon strip detector to X-ray diffraction measurements

  1. A. Zięba, W. Dąbrowski, A. Czermak. Silicon strip detectors and possibility of their application in X-ray diffraction mesurements. First Polish Meeting on High-Resolution X-ray Diffraction and Topography. Szklarska Poręba, 14-17 Sept. 1996. Conference Notes, pp. 205-209. In Polish,
    English translation available at pdf file:  98proposal.pdf

  2. A. Zięba, W. Białas, W. Dąbrowski, P. Gryboś, M. Idzik, B. Leśniewska, J. Kudłaty and J. Słowik. Silicon strip detectors and prospects of their application in X-ray powder diffractometers. In: H. Morawiec and D. Stróż (ed.) Applied Crystallography. (Proc. XVIII Conference on Applied Crystallography, Wisła 2000, World Scientific, Singapore, 2001. pp. 130-133.
    Available at pdf file:  00wislaB.pdf.pdf

  3. A. Zięba, W. Dąbrowski, P. Gryboś, W. Powroźnik, T. Stobiecki, K. Świentek, J. Słowik and P. Wiącek, Prototype silicon position-sensitive detector working with Bragg-Brentano powder diffractometer. Acta Phys. Polon. 101, 629-634 (2002)

  4. A. Zięba, W. Dąbrowski, P. Gryboś, W. Powroźnik, J. Słowik, T. Stobiecki, K. Świentek and P. Wiącek, 128-channel silicon strip detector installed at a powder diffractometer, Mat. Sci. Forum 443-44, p. 175-9 (2004)

  5. J. Słowik and A. Zięba, Silicon strip detector applied to X-ray diffractometer: Angular resolution and counting rate. Nucl. Instrum. Methods A 551 (2005) 73-77


    K. Metodology of powder X-Ray diffraction

  1. J. Słowik and A. Zięba, Geometrical equatorial aberrations in a Bragg-Brentano powder diffractometer with a linear position-sensitive detector, J. Appl. Cryst. 34, 358-464 (2001)



  

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