Considering spin in the transport of nanoscale devices

In summary, the transmission of nanoscale devices typically does not consider spin polarization, but it can be included depending on the desired effect. However, it requires significant effort and can often be neglected unless specifically implemented through methods such as direct contact with a ferromagnetic layer or irradiation with circular polarized light. The spin diffusion length, which determines the extent of spin scattering, varies depending on the material and heavy atom impurities.
  • #1
simsCity
7
0
Hi,

The transmission of nano devices are generally done without cosidering the spin polarization. However, as I saw in some papers, the effect of spin is sometimes included. How can I decide to use spin or not when simulationg transmission of nanoscale devices?

Thanks in advance...
 
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  • #2
It takes quite some effort to produce spin polarization in nano devices. Spins get scattered and eventually average out to a 50%/50% non-magnetic population. The length scale (spin diffusion length) for this depends on the material and heavy atom impurities, but in general it is quite short.

So unless you make an effort to spin-polarize your device, e.g. by direct contact with a ferromagnetic layer or irradiation with circular polarized light you can probably neglect spin effects.

http://en.wikipedia.org/wiki/Spintronics
 
  • #3
Thanks a lot.
 

Related to Considering spin in the transport of nanoscale devices

What is spin in the context of nanoscale devices?

Spin is a property of electrons that describes their intrinsic angular momentum. It can take on two values, either up or down, and can be thought of as the direction of the electron's rotation.

Why is spin important in the transport of nanoscale devices?

Spin plays a crucial role in the behavior and functionality of nanoscale devices. It can affect the electrical and magnetic properties of materials, and can also be manipulated to store and transfer information in spintronics devices.

How is spin considered in the design and fabrication of nanoscale devices?

Designing and fabricating nanoscale devices with consideration for spin involves using materials with specific spin properties, such as ferromagnetic or antiferromagnetic materials. It also requires precise control over the orientation and manipulation of electron spins.

What challenges arise from considering spin in nanoscale device transport?

One challenge is the delicate nature of spin, which can easily be disrupted by external factors such as temperature or magnetic fields. Another challenge is the complexity of incorporating spin into device design, which requires advanced techniques and technologies.

What are some potential applications of spin in nanoscale devices?

Spin has the potential to revolutionize the fields of computing, sensing, and energy storage. It can enable faster and more efficient data storage and processing, as well as more sensitive and precise sensors for various applications.

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