JOURNAL PUBLICATIONS

 

Submitted

92. Time-domain study of magnetization dynamics of magnetic thin films and micro and nanostructures (invited review), A. Barman and A. Haldar.

91. Magnetic nanoparticles - a subject for both fundamental research and applications, S Bedanta, A. Barman, W. Kleemann, O. Petracic, and T. Seki (Review) (submitted).

90. The influence of structural changes on the spin waves spectra of periodic antidot wire, J. W. Klos, D. Kumar, M. Krawczyk, and A. Barman (submitted).

89. Effect of Spin-Twist Structure on the Spin-Wave Dynamics of the Fe₅₅Pt₄₅/Ni₈₀Fe₂₀ Exchange-Coupled Bi-Layers with Varying Ni₈₀Fe₂₀ Thickness, S. Pal, S. Barman, O. Hellwig and A. Barman (submitted). 

88. Optical properties of CdS nanorods dispersed in antiferroelectric liquid crystal, J. S. Roy, T. P. Majumder, R. Dabrowski, B. K. Mahato and A. Barman (submitted).

87. Tuning of optical, magnetic and electronic transport properties in cobalt-doped ZnO nanocrystals, S. Kumar, B. Rana, A. Barman, S. Chatterjee, and A. K. Ghosh (submitted).

 

Published/Accepted

86. Magnonic Band Engineering By Intrinsic and Extrinsic Mirror Symmetry Breaking in Anti-dot Spin-wave Waveguides, 

J. W. Kłos, D. Kumar, M. Krawczyk, and A. Barman, Scientific Reports (Nature Publishing Group) (accepted).

85. Polarizing Effect of Aligned Nanoparticles in THz Frequency Region, D. Polley, A. Ganguly, A. Barman and R. K. Mitra, Optics Letters 38, 2754 (2013).

84. Time-Domain Study of Spin-Wave Dynamics in Two-Dimensional Arrays of Bi-Component Magnetic Structures, S. Saha, S. Barman, J. Ding, A. O. Adeyeye and A. Barman,  Appl. Phys. Lett. 102, 242409 (2013).

83. Tunable Magnonic Spectra in Two dimensional Magnonic Crystals with Variable Lattice Symmetry, S. Saha, R. Mandal, S. Barman, D. Kumar, B. Rana, Y. Fukuma, S. Sugimoto, Y. Otani and A. Barman, Adv. Funct. Mater. 23, 2378 (2013).

82. Configurational Anisotropic Spin-waves in Cross-shaped Ni₈₀Fe₂₀ nanoelements, B. K. Mahato, B. Rana, D. Kumar, R. Mandal, S. Barman, Y. Fukuma, Y. Otani, and A. Barman,  Appl. Phys. Lett. 102, 192402 (2013).

81. Static and dynamic magnetic properties of densely packed magnetic nanowire arrays, O. Dmytriiev, U. A. S. Al-Jarah, P. Gangmei, V. V. Kruglyak and R. J. Hicken, B. K. Mahato, B. Rana, M. Agrawal, and A. Barman, M. Mátéfi-Tempfli, L. Piraux, and S. Mátéfi-Tempfli, Phys. Rev. B 87, 174429 (2013).

80. Effect of Hole Shape on Spin-Wave Band Structure in One-Dimensional Magnonic Antidot Waveguide, D. Kumar, P. Sabareesan, W. Wang, H. Fangohr, and A. Barman, J. Appl. Phys. 114, 023910 (2013).

79. Magneto-Optical Measurements of Collective Spin Dynamics of Two Dimensional Arrays of Ferromagnetic Nanoelements, B. Rana and A. Barman, SPIN 3, 1330001 (37 pages) (2013). Also selected as Cover Article of Issue 1, Vol. 3 of SPIN.

78. Role of codoping on multiferroic properties at room temperature in BiFeO₃ ceramic, A. K. Ghosh, H. Kevin, B. Rana, G. D. Dwivedi, B. Chatterjee, A. Barman, S. Chatterjee and H. D. Yang Solid State Commun. 166, 22 (2013).

77. Pronounced Multiferroicity in Oleic Acid Stabilized BiFeO3 Nanocrystals at Room Temperature, M. Dabbugalla, B. K. Mahato, B. Rana, A. Barman and S. Mandal, J. Nanosci. Nanotech. 13, 4090 (2013).

76. Optically Induced Ultrafast Magnetization Dynamics in Two-Dimensional Ferromagnetic Nanodot Lattices, A. Barman, AIP Conf. Proc. 1512, 1325 (2013).

75. Configuration and Polarization Dependent Transverse Domain Wall Motion and Domain Wall Switching in Ferromagnetic Nanowire, S. Barman, A. Ganguly and A. Barman SPIN 3, 1350001 (2013).

74. Proposal for a standard micromagnetic problem: spin wave dispersion in a magnonic waveguide, G. Venkat, D. Kumar, M. Franchin, O. Dmytriiev, M. Mruczkiewicz, H. Fangohr, A. Barman, M. Krawczyk, and A. Prabhakar, IEEE Trans. Magn. 49, 524 (2013).

73. Magnetization reversal in chemically synthesized hexagonal Cobalt platelets, B. K. Mahato, A. Ganguly, B. Rana, and A. Barman, J. Phys. Chem. C 116, 22057 (2012).

72. The effect of edge pinning on the spectrum of spin waves in magnonic antidot waveguide, J. W. Kłos, D. Kumar, J. Romero-Vivas, M. Franchin, M. Krawczyk, H. Fangohr, and A. Barman, Phys. Rev. B 86, 184433 (2012).

71. Optically Induced Tunable Magnetization Dynamics in Nanoscale Co Antidot Lattices. R. Mandal, S. Saha, D. Kumar, S. Barman, S. Pal, B. Rana, K. Das, A. K. Raychaudhuri, Y. Fukuma, Y. Otani, and A. Barman, ACS Nano 6, 3397 (2012); DOI: 10.1021/nn300421c.

70. Numerical calculation of the spin wave dispersions in magnetic nanostructures, D. Kumar, O. Dimitriyev, P. Sabareesan and A. Barman J. Phys. D: Appl. Phys.45, 015001 (2012).

69. Phonon heat conduction in Al_xGa_1-xN: a theoretical study, S. Barman, A. Ganguly and A. Barman, Europhys. Lett. 97, 36011 (2012).

68. Effect of Sr-doping on multiferroic properties of Bi_0.8La_0.2Fe_0.9Mn_0.1O₃. A. K. Ghosh, H. Kevin, B. Chatterjee, G. D. Dwivedi, A. Barman, H.D. Yang, and S. Chatterjee, Solid State Commun. 152, 557 (2012).

67. Time-resolved measurements of spin-wave spectra in CoO capped {Co(t)/Pt(7Å)]_n multilayers, S. Pal, B. Rana, S. Saha, R. Mandal, O. Hellwig, J. Romero-Vivas, S. Mamica, J. W. Klos, M. Mruczkiewicz, M. Krawczyk, and A. Barman J. Appl. Phys. 111, 07C507 (2012).

66. Anisotropy in collective precessional dynamics in arrays of Ni₈₀Fe₂₀ elements, B. Rana, D. Kumar, S. Barman, S. Pal, R. Mandal, Y. Fukuma, Y. Otani, S. Sugimoto and A.  Barman, J. Appl. Phys. 111, 07D503 (2012).

65. Detection of picosecond magnetization dynamics of 50 nm magnetic dots down to the single dot regime, B. Rana, D. Kumar, S. Barman, S. Pal, Y. Fukuma, Y. Otani and A. Barman, ACS Nano, 5, 9559 (2011), DOI: 10.1021/nn202791g (2011).

64. Dynamics of coupled vortices in a pair of ferromagnetic disks. S. Sugimoto, Y. Fukuma, S. Kasai, T. Kimura, A. Barman and Y. Otani, Phys. Rev. Lett. 106, 197203 (2011).

63. Tunable magnonic frequency and damping in [Co/Pd]₈ multilayers with variable Co layer thickness. S. Pal, B. Rana, O. Hellwig, T. Thomson, and A. Barman, Appl. Phys. Lett. 98, 082501 (2011).

62. All-optical excitation and detection of picosecond dynamics of ordered arrays of nanomagnets with varying areal density. B. Rana, S. Pal, S. Barman, Y. Fukuma, Y. Otani and A. Barman, Applied Physics Express 4, 113003 (2011).

61. Micromagnetic study of size-dependent picosecond dynamics in single nanomagnets, S. Pal, D. Kumar, and A. Barman, J. Phys. D: Appl. Phys. 44, 105002 (2011).

60. Spin waves in multilayered nanograins with perpendicular anisotropy: competition between dipolar and exchange interactions, M. Krawczyk, S. Mamica, J. W. Kłos, J. Romero-Vivas, M. Mruczkiewicz, and A. Barman, J. Appl. Phys. 109, 113903 (2011).

59. Magnetic shape anisotropy in chemically synthesized chains of nickel nanoparticles, B. Rana, A. Ganguly and A. Barman, IEEE Trans. Magn. 47, 2859 (2011).

58. Visible photoluminescence from PbS nanorods: Effect of silver doping, S. K. Mandal, A. R. Mandal, A. Barman and U. K. Gautam, J. Nanosci. Nanotechnol. 11, 10234 (2011).

57. Magnetization reversal dynamics in Co Nanowires with competing magnetic anisotropies, S. Pal, S. Saha, D. Polley and A. Barman, Solid State Commun. 151, 1994 (2011).

56. Correlation between perpendicular magnetic anisotropy and Gilbert damping in [Co/Pd]₈ multilayers with variaible Co layer thickness, S. Pal, B. Rana, O. Hellwig, T. Thomson and A. Barman, Nanomaterials and their Applications, pp. 206, Allied Publishers Pvt. Ltd. (2011).

55. Magnetization reversal in chains and clusters of exchange coupled Ni nanoparticles. M. Agrawal, B. Rana and A. Barman, J. Phys. Chem. C 114, 11115 (2010).

54. Magnetization reversal dynamics in clusters of Ni nanoparticles. B. Rana, M. Agrawal, S. Pal and A. Barman, J. Appl. Phys 107, 09B513 (2010).

53. Controlled magnonic spectra in Co nanohole arrays: effects of density, symmetry and defects, A. Barman, J. Phys. D: Appl. Phys. 43, 195002 (2010).

52. Controlled propagation of local magnetic excitation in one-dimensional chains of nanomagnets, S. Barman, A. Barman and Y. Otani, J. Phys. D: Appl. Phys. 43, 335001 (2010).

51. Dynamics of one-dimensional chains of magnetic vortices in response to local and global excitations, S. Barman, A. Barman and Y. Otani, IEEE Trans. Magn. 46, 1342 (2010).

50. Gyration mode splitting in magnetostatically coupled magnetic vortices in an array, A. Barman, S. Barman, T. Kimura, Y. Fukuma, and Y. Otani, J. Phys. D: Appl. Phys., fast track communication 43, 422001 (2010); also selected as highlights of 2010 in J. Phys. D: Appl. Phys.

49. Dynamic dephasing of magnetization precession in arrays of thin magnetic nanoelements, A. Barman and S. Barman, Phys. Rev. B 79, 144415 (2009).

48. Coherent suppression of magnetization precession in presence of spin waves in a Ni₈₁Fe₁₉ microwire. A. Barman, T. Kimura, Y. Fukuma, and Y. Otani, IEEE Trans. Magn. 45, 4104 (2009).

47. Structural and magnetic properties of electrodeposited Co nanowire arrays. S. Sharma, A. Barman, M. Sharma, L. R. Shelford, V. V. Kruglyak and R. J. Hicken, Solid State Commun. 149, 1650 (2009).

46. Coherent suppression of picosecond magnetization precession in presence of spin waves in a Ni₈₁Fe₁₉ microstripe. A. Barman, H. Sakata, T. Kimura, Y. Fukuma, and Y. Otani, J. Appl. Phys. 106, 043906 (2009).

45. Development of a benchtop time-resolved magnetooptical Kerr microscope. A. Barman, T. Kimura, Y. Fukuma, Y. Otani, K. Akahane and S. Meguro, Rev. Sci. Instr. 79, 123905 (2008).

44. Intrinsic magnetization dynamics of single nanomagnets (Book Chapter). A. Barman and H. Schmidt, Electromagnetic, magnetostatic & exchange interaction vortices in confined magnetic structures, E. O. Kamenetskii (Eds.), Transworld Research Network (2008).

43. Size dependent damping in picosecond dynamics of single nanomagnets. A. Barman, S. Wang, J. Maas, A. R. Hawkins, S. Kwon, A. Liddle, J. Bokor, and H. Schmidt, Appl. Phys. Lett. 90, 202504 (2007).

42. Optimization of nano-magneto-optic sensitivity using dual layer enhancement, S. Wang, A. Barman, H. Schmidt, J. Maas, A. R. Hawkins, and S. Kwon, Appl. Phys. Lett. 90, 252504 (2007).

41. Ultrafast magnetization dynamics in high perpendicular anisotropy [Co/Pt]n multilayers. A. Barman, S. Wang, O. Hellwig, A. Berger, E. E. Fullerton, and H. Schmidt, J. Appl. Phys. 101, 09D102 (2007).

40. Microphotonic control of single molecule fluorescence correlation spectroscopy using planar optofluidics, D. Yin, E. J. Lunt, A. Barman, H. Schmidt, and A. R. Hawkins, Optics Express 15, 7290 (2007).

39. Two-coherent-wave coupling in Rhodamine 110-doped boric acid glass solid films, R. C. Sharma, A. Barman, S. N. Thakur and J. P. Singh, J. Opt. Soc. Am. B 24, 1130 (2007).

38. Micromagnetic study of picosecond dephasing of spin waves in a square magnetic element, A. Barman and R. C. Sharma, J. Appl. Phys. 102, 053912 (2007).

37. Magneto-optical observation of picosecond dynamics of single nanomagnets, 

A. Barman, S. Wang, J. Maas, A. R. Hawkins, S. Kwon, A. Liddle, J. Bokor, and H. Schmidt, Nano Letters 6, 2939 (2006).

36. Phase manipulation of continuum generation and stimulated Raman scattering in ethanol, 

A. Barman, N. T. Form, and B. J. Whitaker, Chem. Phys. Lett. 427, 317 (2006). 

35. Femtosecond laser induced magnetization dynamics in single nanomagnets, A. Barman, S. Wang, N. Quereshi, M. A. Lowther, A. R. Hawkins, S. Kwon, A. Liddle, J. Bokor and H. Schmidt, IEEE International Magnetics Conference, art. no. 4261500, p. 66 (2006). 

34. Picosecond magnetization dynamics in nanomagnets: crossover to nonuniform precession. V. V. Kruglyak, A. Barman, and R. J. Hicken, J. R. Childress and J. A. Katine, Phys. Rev. B: Rapid Communication 71, 220409(R) (2005).

33. AOPDF shaped Optical Parametric Oscillator in the visible. A. Monmayrant, A. Arbouet, B. Girard, B. Chatel, A. Barman, B. J. Whitaker, and D. Kaplan, Appl. Phys. B: Rapid Communication 81, 177 (2005).

32. Dependence of spatial coherence in coherent suppression of magnetization dynamics upon aspect ratio in Ni₈₁Fe₁₉ microdots. A. Barman, V. V. Kruglyak, R. J. Hicken, J. Scott, and M. Rahman, J. Appl. Phys. 97, 10A710 (2005).

31. Precessional dynamics in micro-arrays of nanomagnets. V. V. Kruglyak, A. Barman, R. J. Hicken, J. R. Childress, and J. A. Katine, J. Appl. Phys. 97, 10A706 (2005).

30. Use of microscale coplanar striplines with indium tin oxide windows in optical ferromagnetic resonance measurements. P. S. Keatley, V. V. Kruglyak, A. Barman, S. Ladak, R. J. Hicken, J. Scott, and M. Rahman, J. Appl. Phys. 97, 10R304 (2005).

29. Pulse reverse plating for integrated magnetics on Si. S. Roy, M. Ludwig, A. Connell, M. Brunet, N. Wang, T. O’Donnell, P. McCloskey, C. O’Mathuna, A. Barman, and R. J. Hicken. J. Magn. Magn. Mater. 290-291, 1524 (2005).

28. Optimisation of NOPA output pulse shaping using an AOPDF with dispersion self-correction. A. Monmayrant, A. Arbouet, B. Girard, B. Chatel, A. Barman, B. J. Whitaker, and D. Kaplan, IEEE 2005 CLEO Europe, pp. 377-379 (2005). doi: 10.1109/CLEOE.2005.1568158 

27. Imaging the dephasing of spin wave modes of a square thin film magnetic element, A. Barman, V. V. Kruglyak, R. J. Hicken, J. M. Rowe, A. Kundrotaite, J. S. Scott, and M. Rahman, Phys. Rev. B  69, 174426 (2004).

26. Dependence of anisotropy and damping on shape and aspect ratio in micron sized Ni₈₁Fe₁₉ elements. A. Barman, V. V. Kruglyak, R. J. Hicken, J. Scott, A. Kundrotaite, and M. Rahman, J. Appl. Phys. 95, 6998 (2004).

25. Shape dependent anisotropy and damping of picosecond magnetization dynamics in micron sized Ni₈₁Fe₁₉ elements. A. Barman, V. V. Kruglyak, R. J. Hicken, A. Kundrotaite and M. Rahman.   J. Magn. Magn.  Mater. 272-276P3, 2121 (2004).

24. Characterization of Thin Film Magnetic Structures by Optical Ferromagnetic Resonance. R. J. Hicken, A. Barman, V. V. Kruglyak, and S. Ladak, J. Phys. D: Appl. Phys.  36, 2183 (2003).

23. Anisotropy, damping and coherence of magnetization dynamics in a 10mm square Ni₈₁Fe₁₉ element. A. Barman, V. V. Kruglyak, R. J. Hicken, A. Kundrotaite and M. Rahman. Appl. Phys. Lett. 82, 3065 (2003).

22. Observation of incoherent picosecond magnetization dynamics in micron sized Ni₈₁Fe₁₉ elements by Time Resolved Scanning Kerr Microscopy. A. Barman, V. V. Kruglyak, R. J. Hicken, A. Kundrotaite and M. Rahman. IEE Proc. A, Meas. Sci. Technology 150, 260 (2003).

21. Exploring Ultrafast Magnetism with the Magneto Optical Kerr Effect. R. J. Hicken, A. Barman, V. V. Kruglyak, and R. Wilks, Magnetic Materials and Technology, K. O’Grady, H. Kuraoka (Eds.), Bristol, Institute of Physics, 2004.

20. Characterization of spin valves fabricated on opaque substrates by optical ferromagnetic Resonance, A. Barman, V. V. Kruglyak, R. J. Hicken, C. H. Marrows, M. Ali, A. T. Hindmarch and B. J. Hickey, Appl. Phys. Lett. 81, 1468 (2002).

19. Structural Features of the La-Sr-Fe-Co-O system. A. Cziraki, I. Gerocs, M. Koteles, A. Gabris, L. Pogany, I. Bakonyi, Z. Klencsar, A. Vertes, S. K. De, A. Barman, M. Ghosh, S. Biswas, S. Chatterjee, B. Arnold, H. D. Bauer, K. Wetzig, C. Ulhaq-Bouillet, V. Pierron-Bohnes, Eur. Phys. J. B 21, 521 (2001).

18. Thickness dependent transport properties of Nd_2/3Sr_1/3MnO₃ thin films. A. Barman and G. Koren. Appl. Phys. Lett. 77, 1674 (2000).

17. A study of the transport properties of Fe₆₇Co₁₈B₁₄Si and Fe₈₁B_13.5Si_3.5C₂ metallic glass alloys at low temperature. K. Lal, A. K. Meikap, S. K. Chattopadhyay, M. Ghosh, A. Barman and S. Chatterjee, Solid State Communication 113, 533 (2000).

16. Transport properties of Ti₃Ir compound at low temperature. M. Ghosh, A. Barman, A. K. Meikap, S. K. De and S. Chatterjee, Czech J. of Physics 50, 883 (2000).

15. Electrical resistivity and magnetoresistivity of protonic acid(H₂SO₄ and HCl) doped polyaniline at low temperature. M. Ghosh, A. Barman, A. K. Meikap, S. K. De and S. Chatterjee, J. Appl. Pol. Sci. 75, 1480 (2000).

14. Hopping Transport in HCl Doped Conducting Polyaniline. M. Ghosh, A. Barman, A. K. Meikap, S. K. De and S. Chatterjee, Physics Letters A 260, 138 (1999).

13. Electrical and Magnetic Properties of La_.7-xY_xSr_.3MnO₃ at Low Temperature. A. Barman, M. Ghosh, S. Biswas, S. K. De and S. Chatterjee, J. Phys: Cond. Matter 10, 9799 (1998).

12. Magnetic and Magnetocaloric Properties of the GMR ceramic La_.7-xY_xSr_.3MnO₃. T. K. Bose, A. Chachine, B. R. Gopal, M. Foldeaki, A. Barman, M. Ghosh, S. K. De and S. Chatterjee, Cryogenics 38, 849 (1998).

11. Charge Ordered State and Giant Magnetoresistance in Pr_0.7R_0.1Ca_0.2MnO₃ (R=Y, Dy, Gd, Sm, Nd). A. Barman, M. Ghosh, S. Biswas, S. K. De and S. Chatterjee, J. Phys: Cond. Matter 10, L199 (1998).

10. Electrical Properties of La_0.6Re_0.1Ca_0.3MnO₃ (Re = Pr, Sm, Gd, Dy) at Low Temperature, A. Barman, M. Ghosh, S. Biswas, S. K. De and S. Chatterjee, Solid State Commun. 106, 691 (1998).

9. The study of defects, transport properties and dissipative flux motion in proton irradiated textured polycrystalline Bi₂Sr₂CaCu₂O_8+d and Bi_1.84Pb_0.34Sr_1.91Ca_2.03Cu_3.06O_10+d superconductors. P. Sen, P. M. G. Nambissan, S. K. Bandyopadhyay, P. Barat, M. Ghosh, A. Barman, P. Mukherjee and S. De. Physica C 303, 108 (1998).

8. Crossover from Mott to Efros-Shklovskii Variable Range Hopping Conductivity in Conducting Polyaniline. M. Ghosh, A. Barman, S. K. De and S. Chatterjee, Synthetic Metals 97/1, 23 (1998).

7. Transport Properties of HCl Doped Polyaniline and Polyaniline-Methyl Cellulose Dispersion. M. Ghosh, A. Barman, S. K. De and S. Chatterjee, J. Appl. Phys.  84, 806 (1998).

6. Electrical Transport in Paratoluene Sulphonate Doped Polypyrrole Films at Low Temperature. M. Ghosh, A. Barman, A. Das, A. K. Meikap, S. K. De and S. Chatterjee, J. Appl. Phys. 83, 4230 (1998).

5. Giant Magnetoresistance in La_0.8Sr_0.2Fe_xCo_1-xO₃ (0.025 < x < 0.3), A. Barman, M. Ghosh, S. Biswas, S.  K. De and S. Chatterjee, Appl. Phys. Lett. 71, 3150 (1997).

4. Electrical Transport Properties of Bulk La_1-xBa_xCoO₃ at Low Temperature, A. Barman, M. Ghosh, S. K. De and S. Chatterjee, Phys. Lett. A 234, 384 (1997).

3. Low Temperature Electrical Conductivity of Polyaniline-Polyvinyl Alcohol Blends, M. Ghosh, A. Barman, S. K. De and S. Chatterjee, Solid State Communication 103, 629 (1997).

2. Electrical Transport Properties of LaXO_3+d (X = Mn, Co, Ni), A. Barman, M. Ghosh, A. Das, S. K. De and S. Chatterjee, Ind. J. Phys.  71A, 517 (1997).

1. Resistivity and Magnetoresistance Studies of Nb₃Ir and V₃Sb Compounds. M. Ghosh, A. Barman, A. Das, A. K. Meikap, S. K. De and S. Chatterjee, Phys. Stat. Sol. (b) 201, 153 (1997).

 

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