@article { ISI:000284766800007, title = {External field control of collective spin excitations in an optical lattice of (2)Sigma molecules}, journal = {NEW JOURNAL OF PHYSICS}, volume = {12}, year = {2010}, month = {OCT 5}, pages = {103007}, abstract = {We show that an ensemble of (2)Sigma molecules in the ro-vibrational ground state trapped on an optical lattice exhibits collective spin excitations that can be controlled by applying superimposed electric and magnetic fields. In particular, we show that the lowest energy excitation of the molecular ensemble at certain combinations of electric and magnetic fields leads to the formation of a magnetic Frenkel exciton. The exciton bandwidth can be tuned by varying the electric or magnetic fields. We show that the exciton states can be localized by creating vacancies in the optical lattice. The localization patterns of the magnetic exciton states are sensitive to the number and distribution of vacancies, which can be exploited for engineering many-body entangled spin states. We consider the dynamics of magnetic exciton wavepackets and show that the spin excitation transfer between molecules in an optical lattice can be accelerated or slowed down by tuning an external magnetic or electric field.}, issn = {1367-2630}, doi = {10.1088/1367-2630/12/10/103007}, author = {Perez-Rios, J. and Herrera, F. and Krems, R. V.} }