Curriculum vitae


RG Methods in
Statistical Field Theory


Thirumalai Group
Netz Group
A. Nihat Berker

Michael Hinczewski

New address (group homepage coming soon):
Assistant Professor
Physics Department
Case Western Reserve University

e-mail: michael.hinczewski@case.edu

Publications    (click here to sort by topic)     ResearcherID:  C-3822-2011 

37.  M. Hinczewski and D. Thirumalai, "Cellular signaling networks function as generalized Wiener-Kolmogorov filters to suppress noise"
Phys. Rev. X in press (2014). arXiv:1406.3290.

36.  B. Ramm, J. Stigler, M. Hinczewski, D. Thirumalai, H. Herrmann, G. Woehlke, and M. Rief, "Sequence-resolved free energy profiles of stress-bearing vimentin intermediate filaments"
Proc. Natl. Acad. Sci. published online before print (2014). PDF, DOI.

35.  S. Chakrabarti, M. Hinczewski, and D. Thirumalai, "Plasticity of hydrogen bond networks regulates mechanochemistry of cell adhesion complexes"
Proc. Natl. Acad. Sci. 111, 9048 (2014). PDF, DOI.

34.  C. Hyeon, M. Hinczewski, and D. Thirumalai, "Evidence of disorder in biological molecules from single molecule pulling experiments"
Phys. Rev. Lett. 112, 138101 (2014). PDF, DOI, arXiv:1402.6683.

33.  M. Hinczewski, R. Tehver, and D. Thirumalai, "Design principles governing the motility of myosin V"
Proc. Natl. Acad. Sci. 110, E4059 (2013). PDF, DOI, arXiv:1310.6741.
Research highlight: A. Klopper, "Walk the line", Nature Physics 9, 692 (2013).

32.  M. Hinczewski, J.C.M. Gebhardt, M. Rief, and D. Thirumalai, "From mechanical folding trajectories to intrinsic energy landscapes of biopolymers"
Proc. Natl. Acad. Sci. 110, 4500 (2013). PDF, DOI, arXiv:1303.6231.

31.  O.S. Sariyer, M. Hinczewski, and A.N. Berker, "Phase separation and charge-ordered phases of the d=3 Falicov-Kimball model at nonzero temperature: Temperature-density-chemical potential global phase diagram from renormalization-group theory"
Phys. Rev. B 84, 205120 (2011). PDF, DOI.

30.  Y. von Hansen, F. Sedlmeier, M. Hinczewski, and R.R. Netz, "Friction contribution to water-bond breakage kinetics"
Phys. Rev. E 84, 051501 (2011). PDF, DOI.

29.  M. Hinczewski and R.R. Netz, "Anisotropic Hydrodynamic Mean-Field Theory for Semiflexible Polymer Dynamics under Tension"
Macromolecules 44, 6972 (2011). PDF, DOI, arXiv:0908.0376.

28.  Y. von Hansen, M. Hinczewski, and R.R. Netz, "Hydrodynamic screening near planar boundaries: Effects on semiflexible polymer dynamics"
J. Chem. Phys. 134, 235102 (2011). PDF, DOI.

27.  I. Sorar, D. Saygin-Hinczewski, M. Hinczewski, and F.Z. Tepehan, "Optical and structural properties of Si-doped ZnO thin films"
App. Surf. Sci. 257, 7343 (2011). PDF, DOI.

26.  G. Morrison, C. Hyeon, M. Hinczewski, and D. Thirumalai, "Compaction and tensile forces determine the accuracy of folding landscape parameters from single molecule pulling experiments"
Phys. Rev. Lett. 106, 138102 (2011). PDF, DOI, arXiv:1103.0425.

25.  M. Hinczewski, Y. von Hansen, and R.R. Netz, "Deconvolution of dynamic mechanical networks"
Proc. Natl. Acad. Sci. U.S.A. 107, 21493 (2010). PDF, DOI, arXiv:1107.2611.

24.  C. Güven, M. Hinczewski, A. Nihat Berker, "Tensor renormalization group: Local magnetizations, correlation functions, and phase diagrams of systems with quenched randomness"
Phys. Rev. E 82, 051110 (2010). PDF, DOI, arXiv:1009.5517.

23.  M. Hinczewski, Y. von Hansen, J. Dzubiella, and R.R. Netz, "How the diffusivity profile reduces the arbitrariness of protein folding free energies"
J. Chem. Phys. 132, 245103 (2010). PDF, DOI, arXiv:1005.2200.

22.  M. Hinczewski and R.R. Netz, "Dynamics of DNA: Experimental controversies and theoretical insights"
Physica A 389, 2993 (2010). Proceedings of the Nihat Berker 60th Birthday Symposium. PDF, DOI.

21.  C. Güven and M. Hinczewski, "The tensor renormalization group for pure and disordered two-dimensional lattice systems"
Physica A 389, 2915 (2010). Proceedings of the Nihat Berker 60th Birthday Symposium (2010). PDF, DOI.

20.  Y. von Hansen, R.R. Netz, and M. Hinczewski, "DNA-protein binding rates: Bending fluctuation and hydrodynamic coupling effects"
J. Chem. Phys. 132, 135103 (2010). PDF, DOI, arXiv:0907.2573.

19.  M. Hinczewski and R.R. Netz, "Global cross-over dynamics of single semiflexible polymers"
EPL 88, 18001 (2009). PDF, DOI, arXiv:0907.3891.

18.  A.N. Berker, M. Hinczewski, and R.R. Netz, "Critical percolation phase and thermal Berezinskii-Kosterlitz-Thouless transition in a scale-free network with short-range and long-range random bonds"
Phys. Rev. B 80, 041118 (2009). PDF, DOI, arXiv:0907.0825.

17.  C. Nadir Kaplan, M. Hinczewski, and A.N. Berker, "Infinitely robust order and local order-parameter tulips in Apollonian networks with quenched disorder"
Phys. Rev. E 79, 061120 (2009). PDF, DOI, arXiv:0811.3437.

16.  M. Hinczewski, X. Schlagberger, M. Rubinstein, O. Krichevsky, and R.R. Netz, "End-Monomer Dynamics in Semiflexible Polymers"
Macromolecules 42, 860 (2009). PDF, DOI, arXiv:0809.0667.

15.  C. Nadir Kaplan, A.N. Berker, and M. Hinczewski, "Frustrated further-neighbor antiferromagnetic and electron-hopping interactions in the d=3 t−J model: Finite-temperature global phase diagrams from renormalization group theory"
Phys. Rev. B 80, 214529 (2009). PDF, DOI, arXiv:0809.5181.

14.  M. Hinczewski and A.N. Berker, "Finite-temperature phase diagram of nonmagnetic impurities in high-temperature superconductors using a d=3 tJ model with quenched disorder"
Phys. Rev. B 78, 064507 (2008). PDF, DOI, cond-mat/0607171.

13.  C. Güven, A.N. Berker, M. Hinczewski, and H. Nishimori, "Reentrant and Forward Phase Diagrams of the Anisotropic Three-Dimensional Ising Spin Glass"
Phys. Rev. E 77, 061110 (2008). PDF, DOI, arXiv:0802.0771.

12.  M. Hinczewski and A.N. Berker, "High-Precision Thermodynamic and Critical Properties from Tensor Renormalization-Group Flows"
Phys. Rev. E 77, 011104 (2008). PDF, DOI, arXiv:0709.2803.

11.  D. Saygin-Hinczewski, M. Hinczewski, I. Sorar, F.Z. Tepehan, and G.G. Tepehan, "Modeling the Optical Properties of WO3 and WO3-SiO2 Thins Films"
Solar Energy Mater. Solar Cells 92, 821 (2008). PDF, DOI.

10.  O.S. Sariyer, A.N. Berker, and M. Hinczewski, "Excitation Spectrum Gap and Spin-Wave Stiffness of XXZ Heisenberg Chains: Global Renormalization-Group Calculation"
Phys. Rev. B 77, 134413 (2008). PDF, DOI, arXiv:0704.1064.

9.  M. Hinczewski, "Griffiths singularities and algebraic order in the exact solution of an Ising model on a fractal modular network"
Phys. Rev. E 75, 061104 (2007). PDF, DOI, cond-mat/0701349.

8.  D. Saygin-Hinczewski, K. Koc, I. Sorar, M. Hinczewski, F.Z. Tepehan, and G.G. Tepehan, "Optical and Structural Properties of Ta2O5-CeO2 Thin Films"
Solar Energy Mater. Solar Cells 91, 1726 (2007). PDF, DOI.

7.  M. Hinczewski and A.N. Berker, "d=3 Anisotropic and d=2 tJ Models: Phase Diagrams, Thermodynamic Properties, and Chemical Potential Shift"
Eur. Phys. J. B 51, 461 (2006). PDF, DOI, cond-mat/0504741.

6.  M. Hinczewski and A.N. Berker, "Inverted Berezinskii-Kosterlitz-Thouless Singularity and High-Temperature Algebraic Order in an Ising Model on a Scale-Free Hierarchical-Lattice Small-World Network"
Phys. Rev. E 73, 066126 (2006). PDF, DOI, cond-mat/0512073.

5.  M. Hinczewski and A.N. Berker, "Two Superconducting Phases in the d=3 Hubbard Model: Phase Diagram and Specific Heat from Renormalization-Group Calculations"
Eur. Phys. J. B 48, 1 (2005). PDF, DOI, cond-mat/0503226.

4.  M. Hinczewski and A.N. Berker, "Multicritical Point Relations in Three Dual Pairs of Hierarchical-Lattice Ising Spin-Glasses"
Phys. Rev. B 72, 144402, 1 (2005). PDF, DOI, cond-mat/0507293.

3.  D. Saygin Hinczewski, M. Hinczewski, F.Z. Tepehan, and G.G. Tepehan, "Optical Filters from SiO2 and TiO2 Multilayers Using Sol-Gel Spin Coating Method"
Solar Energy Mater. Solar Cells 87, 181 (2005). PDF, DOI.

2.  M.I. Bergman, L. Giersch, M. Hinczewski, and V. Izzo, "Elastic and attenuation anisotropy in directionally solidified (hcp) zinc, and the seismic anisotropy in the Earth's inner core"
Phys. Earth Planet. Int. 117, 139 (2000). PDF, DOI.

1.  M. Hinczewski and J.C.W. Rogers, "The response of a damped pendulum to a large driving force"
Eur. J. Appl. Math. 9, 105 (1998). DOI.