The nonautonomous dynamics of spin-torque oscillators in presence of both microwave current and field has been numerically studied in nanostructured devices. When both microwave current and field are applied at the same frequency, integer phase locking at different locking ratio is found. In the locking region, a study of the intrinsic phase shift between the locking force (current or field) and the giant magnetoresistive signal as a function of the bias current is also exploited
Considering an array of spin torque transfer nano oscillators (STNOs), we have investigated the sync...
This thesis addresses a current topic of spinelectronics which are steady-state oscillations of the ...
Includes bibliographical references (pages 48-51).The field of spintronics, the manipulation of elec...
The nonautonomous dynamics of spin-torque oscillators in presence of both microwave current and fiel...
An analytical approach is presented for the study of synchronization effects in spin-transfer-driven...
The magnetization dynamics of a spin-transfer nano-oscillator is studied for a system subject to the...
The injection-locking mechanism of a spin-transfer nano-oscillator is studied for a system which is ...
This dissertation mainly describes the study of the spin-torque induced magnetic dynamics in pattern...
Session FA: Spin Dynamics and MicromagneticsWe demonstrate numerically and analytically that a nano-...
A novel theoretical approach to magnetization dynamics driven by spin-polarized currents is presente...
International audiencePhase coupling between auto-oscillators is central for achieving coherent resp...
We study magnetization dynamics in spin-transfer devices subject to DC and microwave injected curren...
Spin-transfer1, 2 in nanometre-scale magnetic devices results from the torque on a ferromagnet owing...
In a magnetic multilayer, spin-transfer torque from a spin-polarized current can excite magnetic lay...
A novel theoretical approach to magnetization dynamics driven by spin-polarized currents is presente...
Considering an array of spin torque transfer nano oscillators (STNOs), we have investigated the sync...
This thesis addresses a current topic of spinelectronics which are steady-state oscillations of the ...
Includes bibliographical references (pages 48-51).The field of spintronics, the manipulation of elec...
The nonautonomous dynamics of spin-torque oscillators in presence of both microwave current and fiel...
An analytical approach is presented for the study of synchronization effects in spin-transfer-driven...
The magnetization dynamics of a spin-transfer nano-oscillator is studied for a system subject to the...
The injection-locking mechanism of a spin-transfer nano-oscillator is studied for a system which is ...
This dissertation mainly describes the study of the spin-torque induced magnetic dynamics in pattern...
Session FA: Spin Dynamics and MicromagneticsWe demonstrate numerically and analytically that a nano-...
A novel theoretical approach to magnetization dynamics driven by spin-polarized currents is presente...
International audiencePhase coupling between auto-oscillators is central for achieving coherent resp...
We study magnetization dynamics in spin-transfer devices subject to DC and microwave injected curren...
Spin-transfer1, 2 in nanometre-scale magnetic devices results from the torque on a ferromagnet owing...
In a magnetic multilayer, spin-transfer torque from a spin-polarized current can excite magnetic lay...
A novel theoretical approach to magnetization dynamics driven by spin-polarized currents is presente...
Considering an array of spin torque transfer nano oscillators (STNOs), we have investigated the sync...
This thesis addresses a current topic of spinelectronics which are steady-state oscillations of the ...
Includes bibliographical references (pages 48-51).The field of spintronics, the manipulation of elec...