Fisa de verificare a îndeplinirii standardelor minimale pentru indicatorul C Numărul Oniciuc, E; Stoleriu, L; Stancu, A Landau Lifshitz Bloch Slonczewski simulations of the spin transfertorque driven magnetization switching assisted by Joule heating APPL PHYS LETT 0 05 0.000 0. Kanai, S; Nakatani, Y; Yamanouchi, M; Ikeda, S; Matsukura, F; Ohno, H In plane magnetic field dependence of electric field induced magnetization switching Investigation of the composition dependent properties of BaTi Deluca, M; Vasilescu, CA; Ianculescu, AC; xzrxo ceramics prepared by the modified Pechini method Berger, DC; Ciomaga, CE; Curecheriu, LP; Stoleriu, L; Gajovic, A; Mitoseriu, L; Galassi, C Buscaglia, V; Tripathi, S; Petkov, V; Dapiaggi, M; Deluca, M; Gajovic, A; Ren, Y Mahesh, MLV; Prasad, VVB; James, AR Average and local atomic scale structure in BaZrxTi xo (x=0.0, 0.0, 0.0) ceramics by high energy x ray diffraction and Raman spectroscopy APPL PHYS LETT 0 708 0.87 J EUR CERAM SOC 566 0 0 6.667.00 J PHYS CONDENS MAT 6 6590 0.0 Effect of sintering temperature on the microstructure and electrical properties of zirconium doped barium titanate ceramics J MATER SCI MATER EL 69 0 0.9 Enhanced Piezoelectric Properties and Tunability of Lead Free Mahesh, MLV; Bhanuprasad, VV; James, AR Ceramics Prepared by High Energy Ball Milling Sindhu, M; Ahlawat, N; Sanghi, S; Kumari, R; Effect of Zr substitution on phase transformation and dielectric Agarwal, A properties of Ba0.9Ca0.TiO ceramics Effect of Zr+ substitution on thermal stability and electrical Cen, ZY; Zhou, CR; Cheng, J; Zhou, XJ; Li, WZ; 5 properties of high temperature BiFe0.99Al0.0O BaTi xzrxo Yan, CL; Feng, SL; Liu, YQ; Lao, DS ceramics Defect chemistry of a high k 'Y5V' (Ba0.95Eu0.05)TiO ceramic 6 Lu, DY; Zhang, L; Sun, XY 7 Schileo, G; Luisman, L; Feteira, A; Deluca, M; Reichrnann, K 8 Monnor, T; Laosiritaworn, Y; Yimnirun, R J ELECTRON MATER 55 0 0.68 J APPL PHYS 606 0 0.86 J ALLOY COMPD 567 0 0.509 CERAM INT 9 677 0 0.55 Structure property relationships in BaTiO BiFeO BiYbO ceramics J EUR CERAM SOC 68 0 0.69 Towards a Better Understanding of Relationship between Preisach Densities and Polarization Reversals on Hysteresis Characteristic ADV COND MATTER PHYS 959 0 0.67 Enachescu, C; Nishino, M; Miyashita, S; Stoleriu, L; Stancu, A Chiruta, D; Linares, J; Garcia, Y; Dimian, M; Dahoo, PR Slimani, A; Boukheddaden, K; Varret, F; Nishino, M; Miyashita, S Chiruta, D; Linares, J; Dimian, M; Alayli, Y; Garcia, Y Nishino, M; Nakada, T; Enachescu, C; Boukheddaden, K; Miyashita, S 5 Nishino, M; Miyashita, S 6 Chiruta, D; Linares, J; Garcia, Y; Dahoo, PR; Dimian, M 7 Viquerat, B; Degert, J; Letard, JF; Freysz, E Monte Carlo Metropolis study of cluster evolution in spin crossover solids within the framework of a mechanoelastic model PHYS REV B 86 5 0 5 5.000.00 Analysis of multi step transitions in spin crossover nanochains PHYSICA B 8 0 0. Properties of the low spin high spin interface during the relaxation of spin crossover materials, investigated through an electro elastic J CHEM PHYS 9 9706 0 0.99 model Role of Edge Atoms in the Hysteretic Behaviour of D Spin Crossover Nanoparticles Revealed by an Ising Like Model EUR J INORG CHEM 0 509 0 0.665 Crossover of the roughness exponent for interface growth in systems with long range interactions due to lattice distortion PHYS REV B 88 90 0.8 Effect of the short range interaction on critical phenomena in elastic interaction systems Analysis of the Hysteretic Behaviour of D Spin Crossover Compounds by Using an Ising Like Model Relaxation oscillations during the laser induced spin state transition of a [Fe(PM BiA)()(NCS)()] complex PHYS REV B 88 08 0.8 EUR J INORG CHEM 0 608 0 0.665 PHYS REV B 87 0 0.8 Laurențiu STOLERIU pg. / 7
Deluca, M; Stoleriu, L; Curecheriu, LP; Horchidan, N; Ianculescu, AC; Galassi, C; Mitoseriu, L Buscaglia, V; Tripathi, S; Petkov, V; Dapiaggi, M; Deluca, M; Gajovic, A; Ren, Y Gajovic, A; Plestina, JV; Zagar, K; Plodinec, M; Sturm, S; Ceh, M Monnor, T; Laosiritaworn, Y; Yimnirun, R Zhang, QW; Zhai, JW; Kong, LB; Yao, X Stoleriu, L; Pinzaru, C; Stancu, A Ivanov, YP; del Real, RP; Chubykalo Fesenko, O; Vazquez, M High field dielectric properties and Raman spectroscopic investigation of the ferroelectric to relaxor crossover in BaSnxTi xo ceramics Average and local atomic scale structure in BaZrxTi xo (x=0.0, 0.0, 0.0) ceramics by high energy x ray diffraction and Raman spectroscopy J APPL PHYS 80 0 7 5.667 0.706 J PHYS CONDENS MAT 6 6590 0.0 Temperature dependent Raman spectroscopy of BaTiO nanorods synthesized by using a template assisted solgel procedure J RAMAN SPECTROSC 0 0 0.6 Towards a Better Understanding of Relationship between Preisach Densities and Polarization Reversals on Hysteresis Characteristic ADV COND MATTER PHYS 959 0 0.67 Investigation of ferroelectric phase transition for barium strontium J APPL PHYS titanate ceramics by in situ Raman scattering 0 0.86 Micromagnetic analysis of switching and domain structure in amorphous metallic nanowires APPL PHYS LETT 00 0 0.000.667 Vortex magnetic structure in circularly magnetized microwires as deduced from magneto optical Kerr measurements J APPL PHYS 5 6909 0 0.86 Deng, C; Kang, YH; Li, EL; Zhang, Y; Cheng, J; A new model of the signal generation mechanism on Ge, T magnetostrictive position sensor Ivanov, YP; Vazquez, M; Chubykalo Fesenko, Magnetic reversal modes in cylindrical nanowires O Fosalau, C; Zet, C; Petrisor, D; Damian, C A New Type of Highly Sensitive Strain Gage Based on Microstructured Magnetic Materials 5 Fosalau, C; Damian, C; Zet, C A high performance strain gage based on the stressimpedance effect in magnetic amorphous wires Thermal hysteresis in spin crossover compounds studied within Stoleriu, L; Chakraborty, P; Hauser, A; the mechanoelastic model and its potential application to Stancu, A; Enachescu, C nanoparticles Molnar, G; Salmon, L; Nicolazzi, W; Terki, F; Emerging properties and applications of spin crossover Bousseksou, A nanomaterials Tanasa, R; Laisney, J; Stancu, A; Boillot, ML; Enachescu, C Guionneau, P Laosiritaworn, W; Laosiritaworn, Y 5 Laosiritaworn, Y 6 Boukheddaden, K 7 8 Oubouchou, H; Slimani, A; Zribi, G; Haine, N; Zergoug, M; Boukheddaden, K Felix, G; Nicolazzi, W; Salmon, L; Molnar, G; Perrier, M; Maurin, G; Larionova, J; Long, J; Guari, Y; Bousseksou, A 9 Mannel, M; Morawetz, K; Lipavsky, P Hysteretic behavior of Fe(phen)()(NCS)() spin transition microparticles vs. the environment: A huge reversible component resolved by first order reversal curves Crystallography and spin crossover. A view of breathing materials MEASUREMENT 7 597 0 0.6 J PHYS D APPL PHYS 6 8500 0 0.900 PROC 0 IEEE ROBOTIC 0 0.000 SENSOR ACTUAT A PHYS 9 0 0 0.60 PHYS REV B 8 0 0 5 5.000.600 J MATER CHEM C 66 0 0.000 APPL PHYS LETT 0 909 0.87 DALTON T 9 0 0.88 Artificial Neural Network modeling of spin transition behavior in two dimensional molecular magnet: The learning by experiences analysis POLYHEDRON 66 5 0 0.88 Role of reduced geometry on critical spin crossover behavior in molecular magnet: Monte Carlo simulation POLYHEDRON 66 5 0 0.88 Monte Carlo investigations on surface elastic energy of spincrossover solids: Direct access to image pressure and the Eshelby PHYS REV B 88 05 0.8 constant Thermal Hysteresis Behavior of Spin Crossover Nanoparticles from a Deformable Lattice Model: Monte Carlo Investigations SENSOR LETT 9 0 0.7 Enhanced Cooperative Interactions at the Nanoscale in Spin Crossover Materials with a First Order Phase Transition PHYS REV LETT 0 570 0.58 Coexistence of phase transitions and hysteresis near the onset of Bose Einstein condensation PHYS REV A 87 567 0 0.980 Laurențiu STOLERIU pg. / 7
0 Oubouchou, H; Slimani, A; Boukheddaden, K Shepherd, HJ; Molnar, G; Nicolazzi, W; Salmon, L; Bousseksou, A Chakraborty, P; Enachescu, C; Hauser, A Viquerat, B; Degert, J; Letard, JF; Freysz, E Slimani, A; Boukheddaden, K; Varret, F; Oubouchou, H; Nishino, M; Miyashita, S 5 Apetrei, AM; Boukheddaden, K; Stancu, A 6 Nicolazzi, W; Pillet, S 7 Tissot, A; Enachescu, C; Boillot, ML Interplay between elastic interactions in a core shell model for spincrossover nanoparticles PHYS REV B 87 00 0.8 Spin Crossover at the Nanometre Scale EUR J INORG CHEM 66 0 0.665 Analysis of the Experimental Data for Pure and Diluted [FexZn x(bbtr)()](clo)() Spin Crossover Solids in the Framework of a Mechanoelastic Model Relaxation oscillations during the laser induced spin state transition of a [Fe(PM BiA)()(NCS)()] complex Microscopic spin distortion model for switchable molecular solids: Spatiotemporal study of the deformation field and local stress at the thermal spin transition Dynamic phase transitions in the one dimensional spin phonon coupling model Structural aspects of the relaxation process in spin crossover solids: Phase separation, mapping of lattice strain, and domain wall structure Control of the thermal hysteresis of the prototypal spin transition Fe II(phen)()(NCS)() compound via the microcrystallites environment: experiments and mechanoelastic model EUR J INORG CHEM 780 0 0.665 PHYS REV B 87 0 0.8 PHYS REV B 87 0.8 PHYS REV B 87 0 0.8 PHYS REV B 85 90 0.8 J MATER CHEM 057 0.575 8 Atitoaie, A; Tanasa, R; Enachescu, C Size dependent thermal hysteresis in spin crossover nanoparticles reflected within a Monte Carlo based Ising like model J MAGN MAGN MATER 600 0 0.76 Siadou, N; Androutsopoulos, M; Panagiotopoulos, I; Stoleriu, L; Stancu, A; Bakas, T; Alexandrakis, V Almasi Kashi, M; Ramazani, A; Golafshan, E; Arefpour, M; Jafari Khamse, E Rotaru, A; Graur, A; Rotaru, GM; Linares, J; Garcia, Y Pascariu, P; Postolache, P; Stancu, A; Georgescu, V Enachescu, C; Stoleriu, L; Stancu, A; Hauser, A Chiruta, D; Linares, J; Dimian, M; Alayli, Y; Garcia, Y Chakraborty, P; Enachescu, C; Walder, C; Bronisz, R; Hauser, A Magnetization reversal in [Ni/Pt](6)/Pt(x)/[Co/Pt](6) multilayers J MAGN MAGN MATER 677 0 7 5.667 0.59 First order reversal curve investigation of the hard and soft magnetic phases of annealed CoFeCu nanowire arrays PHYSICA B 9 5 0 0. Influence of intermolecular interactions and size effect on LITH FORC diagram in D spin crossover compounds J OPTOELECTRON ADV M 56 0 0.0 Experimental and Micromagnetic First Order Reversal Curves Analysis in [Ni Fe/Zn/Co Ni N/Ni Mn] Spin Valves J SUPERCOND NOV MAGN 5 86 0 0.7 Study of the relaxation in diluted spin crossover molecular magnets J APPL PHYS in the framework of the mechano elastic model 09 07B 0.000.50 Role of Edge Atoms in the Hysteretic Behaviour of D Spin Crossover Nanoparticles Revealed by an Ising Like Model EUR J INORG CHEM 0 509 0 0.665 Thermal and Light Induced Spin Switching Dynamics in the D Coordination Network of {[Zn xfex(bbtr)()](clo)()}(infinity): INORG CHEM The Role of Cooperative Effects 5 97 0 0.966 Shang, R; Sun, X; Wang, ZM; Gao, S Laosiritaworn, W; Laosiritaworn, Y 5 Laosiritaworn, Y Bodale, I; Stoleriu, L; Stancu, A Zinc Diluted Magnetic Metal Formate Perovskites: Synthesis, Structures, and Magnetism of [CHNH][MnxZn x(hcoo)] (x=0 ) CHEM ASIAN J 7 707 0.8 Artificial Neural Network modeling of spin transition behavior in two dimensional molecular magnet: The learning by experiences POLYHEDRON 66 5 0 0.88 analysis Role of reduced geometry on critical spin crossover behavior in molecular magnet: Monte Carlo simulation POLYHEDRON 66 5 0 0.88 Reversible and Irreversible Components Evaluation in Hysteretic Processes Using First and Second Order Magnetization Curves IEEE T MAGN 7 0.000. Laurențiu STOLERIU pg. / 7
Bodale, I; Stancu, A Matau, F; Nica, V; Postolache, P; Ursachi, I; Cotiuga, V; Stancu, A Reversible Magnetization Processes Evaluation Using High Order Magnetization Curves Physical study of the Cucuteni pottery technology Dobrota, CI; Stancu, A PKP simulation of size effect on interaction field distribution in highly ordered ferromagnetic nanowire arrays Size effect in spin crossover systems investigated by FORC Rotaru, A; Varret, F; Gindulescu, A; Linares, J; measurements, for surfacted [Fe(NH trz)()](br)()center dot Stancu, A; Letard, JF; Forestier, T; Etrillard, C H()O nanoparticles: reversible contributions and critical size IEEE T MAGN 9 96 0 0.87 J ARCHAEOL SCI 0 95 0 0.669 PHYSICA B 07 685 0 0. EUR PHYS J B 8 9 0 0.685 Enachescu, C; Stoleriu, L; Stancu, A; Hauser, A Laosiritaworn, W; Laosiritaworn, Y Laosiritaworn, Y Gudyma, I; Maksymov, A; Dimian, M Nicolazzi, W; Pavlik, J; Bedoui, S; Molnar, G; Bousseksou, A 5 Apetrei, AM; Boukheddaden, K; Stancu, A 6 Rotaru, A; Graur, A; Rotaru, GM; Linares, J; Garcia, Y 7 Atitoaie, A; Tanasa, R; Enachescu, C 8 Fedin, MV; Maryunina, KY; Sagdeev, RZ; Ovcharenko, VI; Bagryanskaya, EG Apetrei, AM; Enachescu, C; Tanasa, R; Stoleriu, L; Stancu, A Apetrei, AM; Boukheddaden, K; Stancu, A Enachescu, C; Nishino, M; Miyashita, S; Hauser, A; Stancu, A; Stoleriu, L Laosiritaworn, W; Laosiritaworn, Y Laosiritaworn, Y Slimani, A; Boukheddaden, K; Varret, F; Nishino, M; Miyashita, S Boukheddaden, K 5 Chakraborty, P; Pillet, S; Bendeif, EE; Enachescu, C; Bronisz, R; Hauser, A 6 Nishino, M; Miyashita, S Competition between photoexcitation and relaxation in spincrossover complexes in the frame of a mechanoelastic model PHYS REV B 8 0 00.000.000 Artificial Neural Network modeling of spin transition behavior in two dimensional molecular magnet: The learning by experiences POLYHEDRON 66 5 0 0.88 analysis Role of reduced geometry on critical spin crossover behavior in molecular magnet: Monte Carlo simulation POLYHEDRON 66 5 0 0.88 Stochastic kinetics of photoinduced phase transitions in spincrossover solids PHYS REV E 88 0 0.958 Elastic Ising like model for the nucleation and domain formation in EUR PHYS J SPEC TOP spin crossover molecular solids 59 0 0.59 Dynamic phase transitions in the one dimensional spin phonon coupling model PHYS REV B 87 0 0.8 Influence of intermolecular interactions and size effect on LITH FORC diagram in D spin crossover compounds J OPTOELECTRON ADV M 56 0 0.0 Size dependent thermal hysteresis in spin crossover nanoparticles reflected within a Monte Carlo based Ising like model J MAGN MAGN MATER 600 0 0.76 Self Decelerating Relaxation of the Light Induced Spin States in Molecular Magnets Cu(hfac)()L R Studied by Electron Paramagnetic Resonance INORG CHEM 5 77 0 0.966 Monte Carlo simulations of phase transitions and lattice dynamics in an atom phonon model for spin transition compounds PHYSICA B 05 678 00 5 5.000 0.00 Dynamic phase transitions in the one dimensional spin phonon coupling model PHYS REV B 87 0 0.8 Cluster evolution in spin crossover systems observed in the frame of a mechano elastic model EPL EUROPHYS LETT 9 700 00 6 5..5 Artificial Neural Network modeling of spin transition behavior in two dimensional molecular magnet: The learning by experiences POLYHEDRON 66 5 0 0.88 analysis Role of reduced geometry on critical spin crossover behavior in molecular magnet: Monte Carlo simulation POLYHEDRON 66 5 0 0.88 Properties of the low spin high spin interface during the relaxation of spin crossover materials, investigated through an electro elastic J CHEM PHYS 9 9706 0 0.99 model Monte Carlo investigations on surface elastic energy of spincrossover solids: Direct access to image pressure and the Eshelby PHYS REV B 88 05 0.8 constant Light Induced Bistability in the D Coordination Network {[Fe(bbtr)()][BF]()}(infinity): Wavelength Selective Addressing CHEM EUR J 9 8 0.5 of Molecular Spin States Effect of the short range interaction on critical phenomena in elastic interaction systems PHYS REV B 88 08 0.8 Laurențiu STOLERIU pg. / 7
7 Boukheddaden, K; Bailly Reyre, A Towards the elastic properties of D spin crossover thin films: Evidence of buckling effects EPL EUROPHYS LETT 0 6005 0.7 Nicolazzi, W; Pavlik, J; Bedoui, S; Molnar, G; Elastic Ising like model for the nucleation and domain formation in 8 EUR PHYS J SPEC TOP Bousseksou, A spin crossover molecular solids 59 0 0.59 9 Oke, TD; Hontinfinde, F; Boukheddaden, K Interplay between spin crossover and magnetic interactions in a BEG model EUR PHYS J B 86 7 0 0.685 0 Interplay between elastic interactions in a core shell model for spincrossover nanoparticles Oubouchou, H; Slimani, A; Boukheddaden, K PHYS REV B 87 00 0.8 Pavlik, J; Boca, R Established Static Models of Spin Crossover EUR J INORG CHEM 709 0 0.665 Chakraborty, P; Enachescu, C; Hauser, A Analysis of the Experimental Data for Pure and Diluted [FexZn x(bbtr)()](clo)() Spin Crossover Solids in the Framework of a EUR J INORG CHEM 780 0 0.665 Mechanoelastic Model Boukheddaden, K Static and Dynamical Aspects of a Phonon Induced Spin Crossover Transition Local Equilibrium Approach EUR J INORG CHEM 87 0 0.665 How Nonequivalency of the Flexibility of the Ligand Bridges Leads Bialonska, A; Bronisz, R; Kusz, J; Weselski, M; to Anisotropy of Perturbation Transmission in a D Spin Crossover EUR J INORG CHEM Zubko, M Coordination Network 88 0 0.665 5 Microscopic spin distortion model for switchable molecular solids: Slimani, A; Boukheddaden, K; Varret, F; Spatiotemporal study of the deformation field and local stress at the PHYS REV B Oubouchou, H; Nishino, M; Miyashita, S thermal spin transition 87 0.8 6 Morozov, VA Cooperative spin crossover like transitions in the inhomogeneous chain of exchange clusters PHYS CHEM CHEM PHYS 5 999 0. 7 Atitoaie, A; Tanasa, R; Enachescu, C Size dependent thermal hysteresis in spin crossover nanoparticles reflected within a Monte Carlo based Ising like model J MAGN MAGN MATER 600 0 0.76 8 Nicolazzi, W; Pillet, S 9 Tissot, A; Enachescu, C; Boillot, ML Structural aspects of the relaxation process in spin crossover solids: Phase separation, mapping of lattice strain, and domain wall structure Control of the thermal hysteresis of the prototypal spin transition Fe II(phen)()(NCS)() compound via the microcrystallites environment: experiments and mechanoelastic model PHYS REV B 85 90 0.8 J MATER CHEM 057 0.575 0 Tissot, A; Rechignat, L; Bousseksou, A; Boillot, ML Micro and nanocrystals of the iron(iii) spin transition material [Fe J MATER CHEM 9 0.575 III( MeO SalEen)()]PF6 Size effect in spin crossover systems investigated by FORC Rotaru, A; Varret, F; Gindulescu, A; Linares, J; measurements, for surfacted [Fe(NH trz)()](br)()center dot Stancu, A; Letard, JF; Forestier, T; Etrillard, C H()O nanoparticles: reversible contributions and critical size EUR PHYS J B 8 9 0 0.685 Nishino, M; Enachescu, C; Miyashita, S; Rikvold, PA; Boukheddaden, K; Varret, F Stoleriu, L; Bodale, I; Apetrei, A; Stancu, A Bodale, I; Stancu, A Panagiotopoulos, I Enachescu, C; Stoleriu, L; Stancu, A; Hauser, A Chiruta, D; Jureschi, CM; Linares, J; Garcia, Y; Rotaru, A Laosiritaworn, W; Laosiritaworn, Y Macroscopic nucleation phenomena in continuum media with longrange interactions SCI REP UK 6 0 0.000 Realistic Reversible Magnetization Component in Preisach Type Models IEEE T MAGN 6 00.000 0.500 Reversible Magnetization Processes Evaluation Using High Order Magnetization Curves IEEE T MAGN 9 96 0 0.87 A simple approach to the First Order Reversal Curves (FORC) of two J MAGN MAGN MATER phase magnetic systems 5 0 0.76 Model for Elastic Relaxation Phenomena in Finite D Hexagonal Molecular Lattices PHYS REV LETT 0 570 009.000 8.500 Lattice architecture effect on the cooperativity of spin transition coordination polymers J APPL PHYS 5 55 0 0.86 Artificial Neural Network modeling of spin transition behavior in two dimensional molecular magnet: The learning by experiences POLYHEDRON 66 5 0 0.88 analysis Laurențiu STOLERIU pg. 5 / 7
Laosiritaworn, Y Role of reduced geometry on critical spin crossover behavior in molecular magnet: Monte Carlo simulation POLYHEDRON 66 5 0 0.88 Properties of the low spin high spin interface during the relaxation Slimani, A; Boukheddaden, K; Varret, F; of spin crossover materials, investigated through an electro elastic J CHEM PHYS Nishino, M; Miyashita, S model 9 9706 0 0.99 Monte Carlo investigations on surface elastic energy of spincrossover 5 Boukheddaden, K solids: Direct access to image pressure and the Eshelby PHYS REV B 88 05 0.8 constant 6 Nishino, M; Miyashita, S Effect of the short range interaction on critical phenomena in elastic interaction systems PHYS REV B 88 08 0.8 Nicolazzi, W; Pavlik, J; Bedoui, S; Molnar, G; Elastic Ising like model for the nucleation and domain formation in 7 EUR PHYS J SPEC TOP Bousseksou, A spin crossover molecular solids 59 0 0.59 8 Pavlik, J; Boca, R Established Static Models of Spin Crossover EUR J INORG CHEM 709 0 0.665 9 Chakraborty, P; Enachescu, C; Hauser, A Analysis of the Experimental Data for Pure and Diluted [FexZn x(bbtr)()](clo)() Spin Crossover Solids in the Framework of a Mechanoelastic Model EUR J INORG CHEM 780 0 0.665 0 Microscopic spin distortion model for switchable molecular solids: Slimani, A; Boukheddaden, K; Varret, F; Spatiotemporal study of the deformation field and local stress at the PHYS REV B Oubouchou, H; Nishino, M; Miyashita, S thermal spin transition 87 0.8 Apetrei, AM; Boukheddaden, K; Stancu, A Dynamic phase transitions in the one dimensional spin phonon coupling model PHYS REV B 87 0 0.8 Ohtani, R; Arai, M; Hori, A; Takata, M; Kitao, Modulation of Spin Crossover Behavior in an Elongated and S; Seto, M; Kitagawa, S; Ohba, M Flexible Hofmann Type Porous Coordination Polymer J INORG ORGANOMET P 0 0 0. Thermal and Light Induced Spin Switching Dynamics in the D Chakraborty, P; Enachescu, C; Walder, C; Coordination Network of {[Zn xfex(bbtr)()](clo)()}(infinity): INORG CHEM Bronisz, R; Hauser, A The Role of Cooperative Effects 5 97 0 0.966 Atitoaie, A; Tanasa, R; Enachescu, C Size dependent thermal hysteresis in spin crossover nanoparticles reflected within a Monte Carlo based Ising like model J MAGN MAGN MATER 600 0 0.76 5 Nicolazzi, W; Pillet, S 6 Nakada, T; Mori, T; Miyashita, S; Nishino, M; Todo, S; Nicolazzi, W; Rikvold, PA 7 Tissot, A; Enachescu, C; Boillot, ML Structural aspects of the relaxation process in spin crossover solids: Phase separation, mapping of lattice strain, and domain wall structure PHYS REV B 85 90 0.8 Critical temperature and correlation length of an elastic interaction model for spin crossover materials PHYS REV B 85 508 0.8 Control of the thermal hysteresis of the prototypal spin transition Fe II(phen)()(NCS)() compound via the microcrystallites environment: experiments and mechanoelastic model J MATER CHEM 057 0.575 8 9 0 Tissot, A; Rechignat, L; Bousseksou, A; Boillot, ML Arcis Castillo, Z; Zheng, S; Siegler, MA; Roubeau, O; Bedoui, S; Bonnet, S Micro and nanocrystals of the iron(iii) spin transition material [Fe J MATER CHEM III( MeO SalEen)()]PF6 9 0.575 Tuning the Transition Temperature and Cooperativity of bapbpy Based Mononuclear Spin Crossover Compounds: Interplay between CHEM EUR J 7 86 0.5 Molecular and Crystal Engineering Size effect in spin crossover systems investigated by FORC Rotaru, A; Varret, F; Gindulescu, A; Linares, J; measurements, for surfacted [Fe(NH trz)()](br)()center dot Stancu, A; Letard, JF; Forestier, T; Etrillard, C H()O nanoparticles: reversible contributions and critical size EUR PHYS J B 8 9 0 0.685 Visualization and quantitative analysis of spatiotemporal behavior Slimani, A; Varret, F; Boukheddaden, K; in a first order thermal spin transition: A stress driven multiscale PHYS REV B 8 9 0.8 Chong, C; Mishra, H; Haasnoot, J; Pillet, S process D'Avino, G; Painelli, A; Boukheddaden, K Vibronic model for spin crossover complexes PHYS REV B 8 09 0.8 Laurențiu STOLERIU pg. 6 / 7
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Fujii, I; Ugorek, M; Trolier McKinstry, S Ianculescu, A; Mitoseriu, L 5 Ianculescu, A; Mitoseriu, L 6 Ricinschi, D; Ciomaga, CE; Mitoseriu, L; Buscaglia, V; Okuyama, M Grain size effect on the dielectric nonlinearity of BaTiO ceramics J APPL PHYS 07 06 00 0.875 BA(TI,ZR)O FUNCTIONAL MATERIALS: FROM NANOPOWDERS TO BULK CERAMICS ADV NANOTECHNOL 0 00 0.000 Ba(Ti,Zr)O Functional Materials: From Nanopowders to Bulk Ceramics NANOTECHNOL SCI TECH 99 00 0.000 Ferroelectric relaxor crossover characteristics in Ba(ZrxTi x)o ceramics investigated by AFM piezoresponse study J EUR CERAM SOC 0 00 0.70 Kumar, P; Singh, S; Juneja, JK; Prakash, C; INFLUENCE OF SAMARIUM SUBSTITUTION ON DIELECTRIC 7 Raina, KK PROPERTIES OF BARIUM TITANATE BASED CERAMICS MOD PHYS LETT B 5 009 0.87 Kumar, P; Singh, S; Juneja, JK; Prakash, C; Ferroelectric properties of substituted barium titanate ceramics 8 Raina, KK PHYSICA B 0 756 009 0. 9 Curecheriu, LP; Ciomaga, CE; Mitoseriu, L Temperature Dependent Tunability in the Paraelectric State of BaTiO Based Solid Solutions FERROELECTRICS 9 90 009 0.69 Stoleriu, L; Stancu, A; Mitoseriu, L; Piazza, D; Analysis of switching properties of porous ferroelectric ceramics by PHYS REV B Galassi, C means of first order reversal curve 7 707 006 5 5.000.800 Graham, JT; Brennecka, GL; Ferreira, P; Small, L; Duquette, D; Apblett, C; Neutron irradiation effects on domain wall mobility and reversibility in lead zirconate titanate thin films J APPL PHYS 0 0 0.86 Landsberger, S; Ihlefeld, JF Monnor, T; Laosiritaworn, Y; Yimnirun, R Towards a Better Understanding of Relationship between Preisach Densities and Polarization Reversals on Hysteresis Characteristic ADV COND MATTER PHYS 959 0 0.67 Padurariu, L; Curecheriu, L; Galassi, C; Tailoring non linear dielectric properties by local field engineering APPL PHYS LETT Mitoseriu, L in anisotropic porous ferroelectric structures 00 5905 0.87 Ursachi, I; Vasile, A; Chiriac, H; Postolache, P; Magnetic properties of magnetite nanoparticles coated with Stancu, A mesoporous silica by sonochemical method MATER RES BULL 6 7 0 0.57 5 Rotaru, A; Lim, JH; Lenormand, D; Diaconu, A; Wiley, JB; Postolache, P; Stancu, A; Spinu, L Interactions and reversal field memory in complex magnetic nanowire arrays PHYS REV B 8 0.8 Zhu, WL; Fujii, I; Ren, W; Trolier McKinstry, Influence of Mn doping on domain wall motion in 6 S Pb(Zr0.5Ti0.8)O films J APPL PHYS 09 605 0 0.86 7 Fujii, I; Hong, E; Trolier McKinstry, S Thickness Dependence of Dielectric Nonlinearity of Lead Zirconate Titanate Films IEEE T ULTRASON FERR 57 7 00 0.59 8 Ianculescu, A; Mitoseriu, L BA(TI,ZR)O FUNCTIONAL MATERIALS: FROM NANOPOWDERS TO BULK CERAMICS ADV NANOTECHNOL 0 00 0.000 9 Ianculescu, A; Mitoseriu, L Ba(Ti,Zr)O Functional Materials: From Nanopowders to Bulk Ceramics NANOTECHNOL SCI TECH 99 00 0.000 Stoleriu, L; Stancu, A Using experimental FORC distribution as input for a Preisach type model IEEE T MAGN 6 006.000.000 Efficient Use of Preisach Hysteresis Model in Computer Aided Ionita, V; Petrescu, L; Bordianu, A; Tabara, O Design ADV ELECTR COMPUT EN 6 0 0.05 A Preisach method for estimating absolute paleofield intensity Muxworthy, AR; Heslop, D under the constraint of using only isothermal measurements:. Theoretical framework J GEOPHYS RES SOL EA 6 B00 0 0.000 Stancu, A; Andrei, P; Stoleriu, L Magnetic characterization of samples using first and second order J APPL PHYS reversal curve 99 08D70 006.000.000 Adedoyin, A; Andrei, P Data Collapse and Viscosity in Three Dimensional Magnetic Hysteresis Modeling IEEE T MAGN 68 008 0.8 Clime, L; Zhao, SY; Normandin, F; Veres, T Characterization of ferromagnetic nanowires by partial first order reversal curves J APPL PHYS 0 690 007.0 Clime, L; Veres, T; Yelon, A Identification of switching fields in magnetic nanostructures by partial first order reversal curves J APPL PHYS 0 90 007.0 Laurențiu STOLERIU pg. 9 / 7
Stancu, A; Mitoseriu, L; Stoleriu, L; Piazza, D; Galassi, C; Ricinschi, D; Okuyama, M Dirtu, MM; Neuhausen, C; Naik, AD; Rotaru, A; Spinu, L; Garcia, Y Piazza, D; Galassi, C; Barzegar, A; Damjanovic, D Mitoseriu, L; Stoleriu, L; Viviani, M; Piazza, D; Buscaglia, MT; Calderone, R; Buscaglia, V; Stancu, A; Nanni, P; Galassi, C Wang, Z; Zhang, LL; Pu, YP Bhargav, KK; Ram, S; Majumder, SB Kumari, K; Ram, S; Kotnala, RK Eitssayeam, S; Inthata, U; Sujarittangtum, K; Inthong, S; Parjansri, P; Pengpat, K; Rujijanagul, G; Tunkasiri, T Investigation of the switching characteristics in ferroelectrics by first order reversal curve PHYSICA B 7 9 006 7 5.667 0.5 Insights into the Origin of Cooperative Effects in the Spin Transition of [Fe(NH()trz)()](NO)(): the Role of Supramolecular Interactions Evidenced in the Crystal Structure of [Cu(NH()trz)()](NO)()center dot HO Dielectric and piezoelectric properties of PZT ceramics with anisotropic porosity INORG CHEM 9 576 00.05 J ELECTROCERAM 76 00 0.65 Influence of stoichiometry on the dielectric and ferroelectric properties of the tunable (Ba,Sr)TiO ceramics investigated by First J EUR CERAM SOC Order Reversal Curves method 6 9 006 0 6.667.00 Ba0.Sr0.6(Fe0.5Nb0.5)O ceramics with extended giant dielectric J ALLOY COMPD constant step and reduced dielectric loss 586 5 0 0.509 A Liquid Precursor Synthesis of Single Phase Magnetoelectric LaFeO Nanocrystallites MATER EXPRESS 8 0 0.000 Frequency temperature dependent dynamics of dielectrics in ferric oxoborate FeBO6 of cocktail structure of nanorods PHIL MAG LETT 9 509 0 0.59 Preparation and Electrical Properties of ( x)ba0.9sr0.[ti 0.8(Fe0.5Nb0.5)(0.)]O xbizn(0.5)ti(0.5)o() Ceramics FERROELECTRICS 5 75 0 0.55 5 Ianculescu, A; Mitoseriu, L BA(TI,ZR)O FUNCTIONAL MATERIALS: FROM NANOPOWDERS TO BULK CERAMICS ADV NANOTECHNOL 0 00 0.000 6 Ianculescu, A; Mitoseriu, L Ba(Ti,Zr)O Functional Materials: From Nanopowders to Bulk Ceramics NANOTECHNOL SCI TECH 99 00 0.000 7 Ram, S; Jana, A; Kundu, TK Ferroelectric BaTiO phase of orthorhombic crystal structure contained in nanoparticles J APPL PHYS 0 507 007.0 Ianculescu, A; Mitoseriu, L; Berger, D; Composition dependent ferroelectric properties of Ba xsrxtio 8 Ciomaga, CE; Piazza, D; Galassi, C ceramics PHASE TRANSIT 79 88 006 0.97 Piazza, D; Stoleriu, L; Mitoseriu, L; Stancu, A; Characterisation of porous PZT ceramics by first order reversal Galassi, C curves (FORC) J EUR CERAM SOC 6 96 006 5 5.000.00 Towards a Better Understanding of Relationship between Preisach Monnor, T; Laosiritaworn, Y; Yimnirun, R Densities and Polarization Reversals on Hysteresis Characteristic ADV COND MATTER PHYS 959 0 0.67 Uniqueness theorem, theorem of reciprocity, and eigenvalue Vashishth, AK; Gupta, V APPL MATH MECH ENGL 9 0 0.59 problems in linear theory of porous piezoelectricity BA(TI,ZR)O FUNCTIONAL MATERIALS: FROM NANOPOWDERS Ianculescu, A; Mitoseriu, L ADV NANOTECHNOL 0 00 0.000 TO BULK CERAMICS Ba(Ti,Zr)O Functional Materials: From Nanopowders to Bulk Ianculescu, A; Mitoseriu, L NANOTECHNOL SCI TECH 99 00 0.000 Ceramics Wave propagation in transversely isotropic porous piezoelectric 5 Vashishth, AK; Gupta, V INT J SOLIDS STRUCT 6 6 009 0.95 materials 6 Vashishth, AK Wave Propagation in Porous Piezoelectric Materials 69 009 0.000 Stancu, A; Stoleriu, L; Postolache, P; Tanasa, New Preisach model for structured particulate ferromagnetic J MAGN MAGN MATER 90 005.000.750 R media Tannous, C; Gieraltowski, J Angle sensing with ferromagnetic nanowire arrays APPL PHYS LETT 0 0 0.87 Study of grain interactions in perpendicular magnetic recording Papusoi, C; Srinivasan, K; Acharya, R J APPL PHYS 0 8908 0 0.86 media using first order reversal curve Andrei, P; Stancu, A Dynamic models of hystersis for structured media J OPTOELECTRON ADV M 9 8 007 0.9 Crubotaru, F; Stancu, A; Cerchez, M Influence of statistical interactions on the Delta H method J OPTOELECTRON ADV M 9 75 007 0.9 Laurențiu STOLERIU pg. 0 / 7
5 Dumitru, I; Li, F; Wiley, JB; Cimpoesu, D; Stancu, A; Spinu, L 6 Stancu, A 7 Stancu, A; Andrei, P Interaction effects analysis of FMR spectra on dense nanowire systems IEEE T MAGN 7 006 0. Identification procedures for Preisach type models based on FORC J OPTOELECTRON ADV M 8 659 006 0.0 Characterization of static hysteresis models using first order reversal curves diagram method PHYSICA B 7 75 006 0.59 Stancu, A; Stoleriu, L; Postolache, P; Cerchez, Preisach type model for strongly interacting ferromagnetic M particulate systems IEEE T MAGN 0 00.000.750 Tannous, C; Gieraltowski, J Angle sensing with ferromagnetic nanowire arrays APPL PHYS LETT 0 0 0.87 Bodale, I; Stancu, A Reversible Magnetization Processes Evaluation Using High Order Magnetization Curves IEEE T MAGN 9 96 0 0.87 Andrei, P; Stancu, A Dynamic models of hystersis for structured media J OPTOELECTRON ADV M 9 8 007 0.9 Stancu, A Identification procedures for Preisach type models based on FORC J OPTOELECTRON ADV M 8 659 006 0.0 5 Ye, LX; Lee, JM; Wu, TH Direct measurement of Preisach diagram from microhystersis loops IEEE T MAGN at various delay times 006 0. 6 Viddal, CA; Roshko, RM Ageing and memory in the relaxation dynamics of collections of twolevel subsystems J PHYS CONDENS MAT 7 5 005.5 7 Sava, A; Stancu, A Preisach Neel type model for nanostructured magnetic materials J OPTOELECTRON ADV M 6 00 00 0.099 Cimpoesu, D; Stoleriu, L; Stancu, A Cimpoesu, D; Spinu, L; Stancu, A Thiel, F Salaoru, T; Potter, DK; Stoleriu, L; Papusoi, C; Stancu, A Cimpoesu, D; Stoleriu, L; Stancu, A; Lupu, N; Chiriac, H Hu, Y; Chan, KC; Liu, L; Yang, YZ Cerchez, M; Stoleriu, L; Stancu, A Simulation of temperature dependence of statistical interactions in IEEE T MAGN nanoparticulate systems 0 00.000 0. The state dependence of the dynamic interactions in nanostructured particulate systems J APPL PHYS 97 0J50 005.0 Reversed gyroremanent magnetization in gamma FeO particulate systems IEEE T MAGN 0 00 5 5.000 0.00 Demagnetization of Layered Ferromagnetic Structures for Magnetically Shielding: Frequency Considerations IEEE T MAGN 5 5 009 0.56 Simulation of magnetic properties versus temperature for RE TM based amorphous alloys IEEE T MAGN 0 00 5 5.000 0.00 Monte Carlo simulation of dual magnetic phase behavior in bulk metallic glasses J MAGN MAGN MATER 570 00 0.5 Interaction effects in high density magnetic particulate media PHYSICA B 5 00.000 0.667 Egli, R Theoretical aspects of dipolar interactions and their appearance in first order reversal curves of thermally activated single domain J GEOPHYS RES SOL EA BS7 006 0.000 particles Muxworthy, A; Williams, W Magnetostatic interaction fields in first order reversal curve J APPL PHYS 97 6905 005.0 Bissell, PR; Cerchez, M; Stoleriu, L; Chantrell, The use of generalized Delta M plots in the magnetic RW; Stancu, A characterization of particulate media J MAGN MAGN MATER 66 7 00 5 5.000 0.00 Panagiotopoulos, I; Fang, W; Ait Atmane, K; Low dipolar interactions in dense aggregates of aligned magnetic Piquemal, JY; Viau, G; Dalmas, F; Boue, F; Ott, nanowires J APPL PHYS 909 0 0.86 F Majetich, SA; Sachan, M Magnetostatic interactions in magnetic nanoparticle assemblies: energy, time and length scales J PHYS D APPL PHYS 9 R 006 0.897 Spinu, L; Cimpoesu, D; Stoleriu, L; Stancu, A Micromagnetic calculation of the transverse susceptibility of patterned media IEEE T MAGN 9 00.000.750 Lungu, AC; Stancu, A Linear/Nonlinear Regime Limit in AC/DC Magnetic Field Measurements IEEE T MAGN 9 0 0.87 Cimpoesu, D; Spinu, L; Stancu, A Transverse susceptibility method in nanoparticulate magnetic media J NANOSCI NANOTECHNO 8 7 008 0.55 Laurențiu STOLERIU pg. / 7
Geshev, J; Nicolodi, S; Pereira, LG; Schmidt, JE; Skumryev, V; Surinach, S; Baro, MD Presa, B; Matarranz, R; Clavero, C; Garcia Martin, JM; Calleja, JF; Contreras, MC Impact of magnetization easy axis distributions on the ferromagnetantiferromagnet exchange coupling estimation PHYS REV B 77 07 008.7 Morphological and magnetic properties of Co nanoparticle thin films grown on SiN J APPL PHYS 0 590 007.0 5 Kechrakos, D; Trohidou, KN Monte Carlo study of the transverse susceptibility in ordered arrays PHYS REV B of magnetic nanoparticles 7 0 006.5 Matarranz, R; Contreras, MC; Pan, G; Presa, Transverse susceptibility of nanoparticle systems: The effect of 6 B; Corrales, JA; Calleja, JF interaction, dispersion, and texture J APPL PHYS 99 08Q50 006.5 7 Cimpoesu, D; Stancu, A; Dumitru, I; Spinu, L Micromagnetic simulation of the imaginary part of the transverse susceptibility IEEE T MAGN 005 0.59 Postolache, P; Cerchez, M; Stoleriu, L; Stancu, Experimental evaluation of the Preisach distribution for magnetic A recording media IEEE T MAGN 9 00.000.500 Beron, F; Novak, MA; Vaz, MGF; Guedes, GP; Macroscopic quantum tunneling of magnetization explored by Knobel, M; Caldeira, A; Pirota, KR quantum first order reversal curves APPL PHYS LETT 0 507 0.87 Matau, F; Nica, V; Postolache, P; Ursachi, I; Physical study of the Cucuteni pottery technology Cotiuga, V; Stancu, A J ARCHAEOL SCI 0 95 0 0.669 Beron, F; de Oliveira, LAS; Knobel, M; Pirota, A novel method for identifying the local magnetic viscosity process J PHYS D APPL PHYS KR of heterogeneous magnetic nanostructures 6 500 0 0.900 Zhu, WL; Fujii, I; Ren, W; Trolier McKinstry, Domain Wall Motion in A and B Site Donor Doped S Pb(Zr0.5Ti0.8)O Films J AM CERAM SOC 95 9 0 0.767 Zhu, WL; Fujii, I; Ren, W; Trolier McKinstry, Influence of Mn doping on domain wall motion in 5 S Pb(Zr0.5Ti0.8)O films J APPL PHYS 09 605 0 0.86 6 Dlala, E Efficient Algorithms for the Inclusion of the Preisach Hysteresis Model in Nonlinear Finite Element Methods IEEE T MAGN 7 0 0.87 7 Fujii, I; Hong, E; Trolier McKinstry, S Thickness Dependence of Dielectric Nonlinearity of Lead Zirconate Titanate Films IEEE T ULTRASON FERR 57 7 00 0.59 8 Harrison, RJ; Feinberg, JM FORCinel: An improved algorithm for calculating first order reversal curve distributions using locally weighted regression GEOCHEM GEOPHY GEOSY 9 Q0506 008.808 smoothing 9 Clime, L; Veres, T; Yelon, A Identification of switching fields in magnetic nanostructures by partial first order reversal curves J APPL PHYS 0 90 007.0 Beron, F; Clime, L; Ciureanu, M; Menard, D; Reversible and quasireversible information in first order reversal 0 Cochrane, RW; Yelon, A curve J APPL PHYS 0 09J07 007.0 Beron, F; Clime, L; Ciureanu, M; Menard, D; First order reversal curves of ferromagnetic soft Cochrane, RW; Yelon, A nanowire arrays IEEE T MAGN 06 006 0. Stancu, A; Macsim, E Interaction field distribution in longitudinal and perpendicular structured particulate media IEEE T MAGN 6 006 0. Cimpoesu, D; Spinu, L; Stancu, A Temperature dependence of FORC in nanostructured materials IEEE T MAGN 67 006 0. Tanasa, R; Stancu, A Statistical characterization of the FORC diagram IEEE T MAGN 8 006 0. 5 Gutowski, MW; Varga, LK; Kakay, A Fast, Preisach like characterization of hysteretic systems PHYSICA B 7 78 006 0.59 6 Gutowski, MW On the symmetry of a Preisach map PHYS STATUS SOLIDI B 6 006 0.07 7 Muxworthy, A; Williams, W Magnetostatic interaction fields in first order reversal curve J APPL PHYS 97 6905 005.0 8 Spinu, L; Stancu, A; Radu, C; Li, F; Wiley, JB Method for magnetic characterization of nanowire structures IEEE T MAGN 0 00 0.0 Mercer, T; Bissell, PR; Ardeleanu, P; Stoleriu, Effects of magnetic layer thickness and of head to medium spacing J APPL PHYS 9 00 5 5.000 0.00 L; Stancu, A on noise in advanced particulate recording media Effects of structure on noise in very thin particulate data storage Mercer, T; Bissell, PR; Tatarasanu, I J MAGN MAGN MATER 6 0 007 0.97 media Laurențiu STOLERIU pg. / 7
Numărul Stancu, A; Pike, C; Stoleriu, L; Postolache, P; Cimpoesu, D Gilbert, DA; Zimanyi, GT; Dumas, RK; Winklhofer, M; Gomez, A; Eibagi, N; Vicent, JL; Liu, K Martinez Garcia, JC; Rivas, M; Lago Cachon, D; Garcia, JA Roy, D; Sreenivasulu, KV; Kumar, PSA Micromagnetic and Preisach analysis of the First Order Reversal Curves (FORC) diagram J APPL PHYS 9 00 5 5.000.000 Quantitative Decoding of Interactions in Tunable Nanomagnet Arrays Using First Order Reversal Curves SCI REP UK 0 0 0.000 First order reversal curves analysis in nanocrystalline ribbons J PHYS D APPL PHYS 7 500 0 0.900 Investigation on non exchange spring behaviour and exchange spring behaviour: A first order reversal curve analysis APPL PHYS LETT 0 06 0.87 Bodale, I; Stancu, A 5 Curecheriu, L; Postolache, P; Buscaglia, V; Horchidan, N; Alexe, M; Mitoseriu, L 6 Lungu, AC; Stancu, A 7 8 9 0 Henager, CH; McCloy, JS; Ramuhalli, P; Edwards, DJ; Hu, SY; Li, YL Graham, JT; Brennecka, GL; Ferreira, P; Small, L; Duquette, D; Apblett, C; Landsberger, S; Ihlefeld, JF Matau, F; Nica, V; Postolache, P; Ursachi, I; Cotiuga, V; Stancu, A Beron, F; de Oliveira, LAS; Knobel, M; Pirota, KR Dobrota, CI; Stancu, A Dobrota, CI; Stancu, A Salaoru, T; Matau, F; Tascu, S; Curecheriu, L; Stancu, A Reversible Magnetization Processes Evaluation Using High Order Magnetization Curves IEEE T MAGN 9 96 0 0.87 BaTiO ferrite composites with magnetocapacitance and hard/soft PHASE TRANSIT magnetic properties 86 680 0 0.97 Linear/Nonlinear Regime Limit in AC/DC Magnetic Field Measurements IEEE T MAGN 9 0 0.87 Investigation of magnetic signatures and microstructures for heattreated ferritic/martensitic HT 9 alloy ACTA MATER 6 96 0.709 Neutron irradiation effects on domain wall mobility and reversibility in lead zirconate titanate thin films J APPL PHYS 0 0 0.86 Physical study of the Cucuteni pottery technology J ARCHAEOL SCI 0 95 0 0.669 A novel method for identifying the local magnetic viscosity process J PHYS D APPL PHYS of heterogeneous magnetic nanostructures 6 500 0 0.900 What does a first order reversal curve diagram really mean? A study case: Array of ferromagnetic nanowires J APPL PHYS 98 0 0.86 Mean field model for ferromagnetic nanowire arrays based on a mechanical analogy J PHYS CONDENS MAT 5 50 0.0 EFFECT OF THERMAL TREATMENT ON THE MAGNETIC PROPERTIES OF CERAMIC SAMPLES FROM EASTERN ROMANIA DIG J NANOMATER BIOS 8 6 0 0.00 CLAY DEPOSITS Dobrota, CI; Stancu, A PKP simulation of size effect on interaction field distribution in highly ordered ferromagnetic nanowire arrays PHYSICA B 07 685 0 0. Zhu, WL; Fujii, I; Ren, W; Trolier McKinstry, Domain Wall Motion in A and B Site Donor Doped 5 S Pb(Zr0.5Ti0.8)O Films J AM CERAM SOC 95 9 0 0.767 Rotaru, A; Graur, A; Rotaru, GM; Linares, J; Influence of intermolecular interactions and size effect on LITH 6 Garcia, Y FORC diagram in D spin crossover compounds J OPTOELECTRON ADV M 56 0 0.0 Pascariu, P; Postolache, P; Stancu, A; Experimental and Micromagnetic First Order Reversal Curves 7 Georgescu, V Analysis in [Ni Fe/Zn/Co Ni N/Ni Mn] Spin Valves J SUPERCOND NOV MAGN 5 86 0 0.7 Ursachi, I; Vasile, A; Chiriac, H; Postolache, P; Magnetic properties of magnetite nanoparticles coated with 8 Stancu, A mesoporous silica by sonochemical method MATER RES BULL 6 7 0 0.57 9 Tanasa, R; Stancu, A Deterministic and non deterministic switching in chains of magnetic hysterons J PHYS CONDENS MAT 600 0.0 0 Panagiotopoulos, I A simple approach to the First Order Reversal Curves (FORC) of two J MAGN MAGN MATER phase magnetic systems 5 0 0.76 Chains of Cobalt Doped Magnetosomes Extracted from AMB Alphandery, E; Carvallo, C; Menguy, N; Magnetotactic Bacteria for Application in Alternative Magnetic Chebbi, I Field Cancer Therapy J PHYS CHEM C 5 9 0. Rotaru, A; Linares, J; Varret, F; Codjovi, E; Slimani, A; Tanasa, R; Enachescu, C; Stancu, A; Haasnoot, J Zhu, WL; Fujii, I; Ren, W; Trolier McKinstry, S Pressure effect investigated with first order reversal curve method on the spin transition compounds [FexZn x(btr)()(ncs)()]center dot HO (x=0.6,) Influence of Mn doping on domain wall motion in Pb(Zr0.5Ti0.8)O films PHYS REV B 8 07 0.8 J APPL PHYS 09 605 0 0.86 Laurențiu STOLERIU pg. / 7