Researchers built extremely small, thermally stable magnetic particles with magnetic properties comparable to some rare earth magnets, the . The dynamics of nanomagnets underpin existing commercial products such as computer hard drives and magnetic random-access memory . The basic constituents are stochastic nanomagnets which switch randomly between the ±Ising states and can be monitored continuously with . We are able to map the spin dynamics of these designer nanomagnets with atomic resolution in two complementary ways. First, atom-to-atom variations of the . Arrays of circular nanomagnets are used to solve the problem of perceptual organization in computer vision by exploiting their tendency to minimize the total. Respiring cellular nano-magnets. Talib A(1), Khan Z(2), Bokhari H(1), Hidayathula S(3), Jilani G(4), Khan AA(5). In molecular nanomagnets the two points almost coincide.

The small size of nanomagnets prevents . This thesis presents my work on the spin dynamics of nanomagnets and investigates the possibility of manipulating nanomagnets by various means. Due to its specific contrast . Nanomagnet logic (NML) circuits are magnetic field-coupled interacting structures built up from nanoscaled magnets to perform logic . Dipole field coupling between individual nanomagnets drives the logic . Extending the nanomagnet logic (NML) concept, which is based on dipole coupling between neighboring nanomagnets , we attempt to use . Storage applications are possible because hysteresis in the nanomagnets. This paper describes the physical properties of nanomagnets and their role in .