Renormalization Group Study of a One Dimensional Generalised Alternating Superlattice at Half - Filling
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1 International Journal of Pure and pplied Physics. ISSN Volume 13, Number 3 (2017), pp Research India Publications Renormalization Group Study of a One Dimensional Generalised lternating Superlattice at Half - Filling Jayeeta Chowdhury Department of Physics, Scottish Church College 1, Urquhart Square, Kolkata 70006, India bstract Using real space renormalization group technique, ground state of a half filled one dimensional alternating superlattice has been studied. The changes in the system s behaviour with the changes in the values of site potentials and on site Coulomb repulsion energies are investigated. Studying renormalization group flow diagrams, possible phase transition points are found out. Keywords: Superlattice, Renormalization group, phase transition INTRODUCTION Metallic multilayered structures [1] show many interesting features such as oscillation of exchange coupling between magnetic layers [2], giant magnetoresistance [3], different types of ordering [4, 6, 7, 9, 10], metal insulator transition [5, 10] etc. ll the previous theoretical works considered either variation in site potential energy or variation in on site Coulomb repulsion energy to model the multilayer structure. In the present work a one dimensional superlattice with unit cell size two has been considered. Variations in both site potential energies and on site Coulomb repulsion energies are taken into consideration. Exact solution for such a system with a standard system size is not possible. Renormalization Group (RG) technique is used for this study, which is a good approximation method as it takes into account quantum fluctuations. RG flow diagrams for different combinations of parameters are drawn from which the ordering within the system and also the possible phase transition points are found out.
2 272 Jayeeta Chowdhury THE MODEL The model is a one dimensional superlattice. The model Hamiltonian is i i H n n t h. c.) U n n U n n (1) i i ( ci, ci 1, i, i i i i There are two sublattices constructed out of the odd and even numbered sites labelled by and respectively. c i, ( c i, ) is the creation (annihilation) operator for an electron with spin (, ) at the i th site. ni, ci, ci, and n i n i,, the number operator at the i th site. For half filled band i i ni N (the number of sites). U andu are the on site Coulomb repulsion energies, and and are the site potentials corresponding to two sublattices and, respectively. Only nearest neighbour hopping t is considered. i THE RENORMLIZTION GROUP TECHNIQUE In this scheme the whole chain is divided into non overlapping cells containing three sites each. Since our lattice is a bipartite one with two types of sites and, there will appear two types of cells and. This division may be done with any number of sites (n > 1) per cell, but to maintain half filling for fermionic systems n should be odd. t the renormalized length scale, the cells are identified as the renormalized type sites and the cells as the renormalized type sites. Now the Hamiltonian contains an intracell ( H 0 ) part and an intercell (T) part. The intracell part ( H 0 ) contains the site energies, the Hubbard terms and also the hopping terms describing electron transfer within the cell; it is a sum of all cell Hamiltonians. For our alternating Hubbard model, there are two types of cell Hamiltonians. The intercell part (T) contains the hopping energy corresponding to the transfer of electrons from one cell to the adjacent ones. For one site, there are four possible states 0, c, c, c c Therefore for one cell, there are 64 possible states. For the study of half filled case 1 1 only the subspaces { n 2, S Sz 0 }, { n 3, S, Sz } and { n 4, S Sz 0} 2 2 are needed. Cell Hamiltonians are diagonalized for these subspaces and only the lowest energy states are retained. These four states in a cell are now identified as the renormalized on site states 0,,, ( :, )
3 Renormalization Group Study of a One Dimensional Generalised lternating 273 In the truncated basis, the intracell Hamiltonian is H ) / 0, E2. ( E3, E2, )( n n ) ( E 4, E2, 2E3, n n (2) where E 4, E 3 and E2 are the lowest energies of the subspaces corresponding to four, three and two particles respectively. From this relation renormalized on site quantities follow as U E4, E2, 2E3, E 3, E2, (3) nd the ground state energy per site n n 1 E2 ( ) E2 ( ) E (4) n 2 3 n1 where n denotes n th stage of iteration. To find the renormalized hopping matrix elements, the matrix elements of c b () and c b () between the renormalized on site states are calculated, where b c is the annihilation operator of the electron with spin at the boundary site of the cell, and or in the parenthesis denotes the type of the cell. 0 b c ( ) 1( ), b c ( ) ( ) 2. Since the alternating Hubbard model possesses spin reversal symmetry, elements for b c will be as same as that of b c (except for a fermionic sign change in the value of ). ut due to absence of particle hole symmetry, ) ( ). The approximation 1( 2 ( ) 1 ( ) 2( ) leads to c b ( ) ( ) c ( ), which in turn leads to effective renormalized hopping t ( ) ( ) t. RESULTS OF RENORMLIZTION GROUP CLCULTION In figures 1, 2, 3 and 4 RG flow diagrams for different cases are shown. In figure 1, U and For U 2. 4, RG flow tends to go to the fixed point with ( ) U 2.4 it tends to ( Point of repulsion 4 ) 0, U U 2. is the phase transition point., U 0, indicating charge ordered (CO) phase. For, indicating spin ordered (SO) phase.
4 274 Jayeeta Chowdhury Figure 1: RG flow diagram in an effective parameter space U ) for U and 0. 0 ( For U 2. 0, 1. 0and 1. 0 (figure 2), U 1. 4 is the point of repulsion. elow this value of U, system is charge ordered and above this value system is spin ordered. Figure 2: RG flow diagram in an effective parameter space U ) for U and 1. 0 ( Figures 3 and 4 are for systems with U 2. 0, U 0. 5, 1. 0 U U 2.0, 1. 0 respectively. Flow diagrams are plotted in the parameter space ( ). Flow lines clearly show the tendency of the ordering within the system. and
5 Renormalization Group Study of a One Dimensional Generalised lternating 275 Figure 3: RG flow diagram in an effective parameter space ) for U 2.0, U 0.5, 1. 0 ( Figure 4: RG flow diagram in an effective parameter space ) for U U 2.0, 1. 0 ( Points of repulsions on the flow diagrams are the phase transition points for the superlattice. Knowing the transition points for various combinations of the four parameters, different types of phase diagrams can be drawn. Only one case is shown in figure 5 where U 2.0, 1. 0.It is a U phase diagram, showing clear boundary between charge ordered (CO) and spin ordered (SO) phases.
6 276 Jayeeta Chowdhury Figure 5: Phase diagram in the U ( ) ( ) plane with U 2.0, U CONCLUSION In this paper, the ordering within the one dimensional alternating superlattice has been studied in detail. Previous works on this type of models considered either variations in site potentials or variations in Coulomb repulsion energies. Here is the generalised study where all of those four parameters are taken as variable. Technique used in the most of the earlier works on this type of model was exact diagonalization of finite systems. To observe the behaviour of the same with bigger system size RG technique is used in this paper. These results may be useful to understand various experimental observations with superlattices. Further study of these systems at finite temperature and in presence of external fields will be very much interesting. REFERENCES [1] Heinrich. and Cochran J. F., 1993, Ultrathin metallic magnetic films: magnetic anisotropies and exchange interactions. dv. Phys. 42, 523 [2] Parkin S. S. P., More N. and Roche K. P., 1990, Oscillation in exchange coupling and magnetoresistance in metallic superlattice structures: Co/Ru, Co/Cr and Fe/Cr. Phys. Rev. Lett. 64, 2304 [3] aibich M. N., roto J. M., Fert., Nguyen Van Dau F., Petroff F., Etienne P., Creuzet G., Friederich. and Chazelas J., 1988, Giant magnetoresistance of (001)Fe/(001)Cr magnetic superlattice. Phys. Rev. Lett. 61, 2472 [4] Paiva T. and dos Santos R. R., 1996, Electronic correlations in one dimensional superlattices. Phys. Rev. Lett. 76, 1126 [5] Paiva T. and dos Santos R. R., 1998, Metal insulator transition in one dimensional Hubbard superlattices. Phys. Rev. 58, 9607
7 Renormalization Group Study of a One Dimensional Generalised lternating 277 [6] Paiva T. and dos Santos R. R., 2002, Charge density waves in one dimensional Hubbard superlattices. Phys. Rev. 65, [7] Malvezzi. L., Paiva T. and dos Santos R. R., 2006, Modulation of charge density waves by superlattice structures. Phys. Rev. 73, [8] Kakashvili P. and Japaridze G. I., 2004, Effective Hamiltonian for a half filled Hubbard chain with alternating on site interactions. J. Phys.: Condens. Matter 16, 5815 [9] Gupta S., Sil S. and hattacharyya., 2001, Ground state of a chemically modulated Hubbard chain at half filling. Phys. Rev. 63, [10] Chowdhuy J., Karmakar S. N. and hattacharyya., 2007, Ground state phase diagram and magnetoconductance of a one dimensional Hubbard superlattice at half filling. Phys. Rev. 75,
8 278 Jayeeta Chowdhury
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