Chyan Long Lin

Associate Professor
Ph.D., Temple University

Office: BA121
Phone: 215-204-8636
Fax: 215-204-5652

Research Interests:

1. Rare earth and actinide based highly correlatd electron systems.

We continue searching for novel materials showing valence fluctuation, heavy fermion behavior, coexistence of superconductivity and magnetism, and quantum critical behavior.

2. Spin waves in ferromagnets and antiferromagnets.

The low temperature magnetization of most simple magnetically ordered systems does not appear to agree with conventional spin wave theory. We have been investigating magnetic materials to further check whether the magnetic systems follow a power law scheme.

3. Synthesis and measurements of physical properties of nanocomposites: C-60 polymerized fullerides, doped nanotubes, and iron based oxides.

We continue preparing new nanocomposites and characterizing their structures. These materials exhibit a variety of anomalous electric, magnetic and thermal properties.

Recent Publications:

1. Thermal and magnetic properties of La doped Ce1-yLayGe1.80 with 0<y<1.0. J. Appl. Phys. 99, 08F707 (2006). C.L. Lin, Tan Yuen, J.A. Zan and Jing Li.

2. Magnetic Properties of a Metal-organic Antiferromagnet Mn(hfipbb)py(H2O)0.5. J. Appl. Phys. 99, 08J501 (2006). Tan Yuen, C.L. Lin, Long Pan, Xiaoying Huang, and Jing Li.

3. Magnetic and dielectric study of Ni2FeV3O11-d. Rev.Adv.Mater.Sci. 14(2007) 14-34. N. Guskos, V. Likodimos, S. Glenis, J. Typek, J. Majszczyk, G. Zolnierkiewicz, A. Blonska-Tabero, and C. L. Lin.

4. Magnetic properties of an Fe(II) meso-tetra (4-pyridyl) porphyrin network. J. Appl. Phys. 101, 09E103 (2007). D. Danilovic, C.L. Lin, Tan Yuen, Long Pan, and Jing Li.

5. Antiferromagnetic behavior in single-wall carbon nanotubes. Phys. Rev. B76, 075420 (2007). V. Likodimos, S. Glenis, N. Guskos, and C. L. Lin.

6. Magnetic properties of TiCx/C nanocomposites. J. Non-Crystalline Solids, 354, 4330-4333 (2008). N. Guskos, V. Likodimos, S. Glens, G. Zolnierkiewicz, J. Typek, C.L. Lin and A. Biedunkiewicz.

7. 33S NMR Measurements in 33S-enriched Ferromagnetic EuS and the Question of Power-law Behaviors. J. Appl. Phys. 105, 07E103 (2009). N. Bykovetz, Jeff Klein, and C.L. Lin.

8. NMR measurements of power law behavior in the spin-wave and critical regions of ferromagnetic EuO. J. Appl. Phys. 107, 09E142 (2010). N. Bykovetz, B. Birang, J. Klein and C.L. Lin.

9. Magnetic properties of carbon nanotube poly(ether-ester) nanocomposities. J. of Appl. Phys. 108, 054314 (2010). S. Glenis, V. Likodimos, N. Guskos, D. Yarmis, G. Zolnierkiewicz, A. Szymczyk and C.L. Lin.

10. Serious discrepancies between nuclear magnetic resonance and neutron scattering measurements in the critical region of classic two-dimensional magnets and anomalous behaviors at low temperatures. J. Appl. Phys. 109, 07E119 (2011). N. Bykovetz, J. Klein, C.L. Lin.

11. Is EuSe a Pseudo Two Dimensional Magnetic System? J. Appl. Phys. 109, 07E165 (2011). N. Bykovetz, J. Klein, C.L. Lin, K. Raj.