We study the application of one nanoring driven by a laser field in different states of polarization in logic circuits. In particular we show that assigning boolean values to different state of the incident laser field and to the emitted signals, we can create logic gates such as OR, XOR and AND. we also show the possibility to make logic circuits such as half-adder and full-adder using one and two nanoring respectively. Using two nanorings we made tho Toffoli gate. Finally we use the final angular momentum acquired by the eelctron to store information and hence show the possibility to use and array of nanorings as a mass device
Computing on the (sub) nanoscale is discussed and illustrated by a specific example of charge transf...
This paper proposes novel universal logic gates using the current quantization characteristics of na...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
We study the application of one nanoring driven by a laser field in different states of polarization...
We study the application of one nanoring driven by a laser field in different states of polarization...
We study the application of one nanoring driven by a laser field in different states of polarization...
Logic gate is the fundamental for computational operation. With the fast development of information ...
In this letter, a nanomachined optical logic gate using optical gradient force is demonstrated. The ...
Binary is the language used by logic devices. Therefore, when magnetic materials need to be used for...
In this paper, we show that perpendicular Nanomagnetic Logic (pNML) is particularly suitable to real...
Molecular and nanostructured systems for logic processing are typically characterized by more than t...
We investigate the mechanics of a nano logic gate, comprising a metallofullerene which is located in...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
A mechanism is developed to construct a logic system by employing DNA/gold nanoparticle (AuNP) conju...
| openaire: EC/FP7/631610/EU//GrabFastAll-optical nanoscale logic components are highly desired for ...
Computing on the (sub) nanoscale is discussed and illustrated by a specific example of charge transf...
This paper proposes novel universal logic gates using the current quantization characteristics of na...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...
We study the application of one nanoring driven by a laser field in different states of polarization...
We study the application of one nanoring driven by a laser field in different states of polarization...
We study the application of one nanoring driven by a laser field in different states of polarization...
Logic gate is the fundamental for computational operation. With the fast development of information ...
In this letter, a nanomachined optical logic gate using optical gradient force is demonstrated. The ...
Binary is the language used by logic devices. Therefore, when magnetic materials need to be used for...
In this paper, we show that perpendicular Nanomagnetic Logic (pNML) is particularly suitable to real...
Molecular and nanostructured systems for logic processing are typically characterized by more than t...
We investigate the mechanics of a nano logic gate, comprising a metallofullerene which is located in...
We studied the evolution of the magnetic state of a majority logic gate consisting of a cluster of f...
A mechanism is developed to construct a logic system by employing DNA/gold nanoparticle (AuNP) conju...
| openaire: EC/FP7/631610/EU//GrabFastAll-optical nanoscale logic components are highly desired for ...
Computing on the (sub) nanoscale is discussed and illustrated by a specific example of charge transf...
This paper proposes novel universal logic gates using the current quantization characteristics of na...
Among all “beyond CMOS” solutions currently under investigation, nanomagnetic logic (NML...