Lab
LAB2D4
Lab2D4 is a research group on Mesoscopic Physics, with main emphasis in study of the electronic, structural, optical and magnetic properties of low dimensional systems, two dimensional crystals such as graphene, silicene, blue phosphorene, germanene and transition metal dichalcogenides monolayers, and materials whose carrier transport behaves like Dirac, Weyl and Majorana fermions. Lad2D4 begin in 2010 with the approved project "Quantum dots and antidots in graphene" by CSI, whose financial support permit us to buy the first computer to develop the numerical research of such systems. From 2010 through 2016, our group was dedicated to numerical research of the physical properties of systems mentioned in the previous paragraph. The results of these research was published in the RIF, www.rif-fisica.org, in the same period, 2010-2016. And some results was presented in two thesis, the first presented by Pablo Aslla for his Master Degree, in july, 2014. And the second, by Diana Arrieta for her Licenciatura en Física, in august, 2014. Lad2D4 had acquired in the 2010-2016 period a computational resources for numerical simulations with the financial support from CSI and other sources. In the last year, 2016, we had begin acquiring some instruments for experimental work.
Lab2D4 is a research group on Mesoscopic Physics, with main emphasis in study of the electronic, structural, optical and magnetic properties of low dimensional systems, two dimensional crystals such as graphene, silicene, blue phosphorene, germanene and transition metal dichalcogenides monolayers, and materials whose carrier transport behaves like Dirac, Weyl and Majorana fermions. Lad2D4 begin in 2010 with the approved project "Quantum dots and antidots in graphene" by CSI, whose financial support permit us to buy the first computer to develop the numerical research of such systems. From 2010 through 2016, our group was dedicated to numerical research of the physical properties of systems mentioned in the previous paragraph. The results of these research was published in the RIF, www.rif-fisica.org, in the same period, 2010-2016. And some results was presented in two thesis, the first presented by Pablo Aslla for his Master Degree, in july, 2014. And the second, by Diana Arrieta for her Licenciatura en Física, in august, 2014. Lad2D4 had acquired in the 2010-2016 period a computational resources for numerical simulations with the financial support from CSI and other sources. In the last year, 2016, we had begin acquiring some instruments for experimental work.
The purpose of Lab2D4 for the next years is to design and develop the experimental setups for to obtain samples with strict properties designed and observed by previous numerical research. This methodology will permit us to create a production process which will saving much money for new experimental and numerical research.
The Lab2D4 focus on to obtain transition metal dichalcogenides monolayers samples of type MX2, with M=Mo,W and X=S, Se and Te; which will be produced by micromechanical cleavage, just as graphene. And 3D materials, like WTe2 -in another phase-, for observing the transport of
- Ciencia de Materiales Avanzados y de Estructuras Artificiales
- Cristalografía y Sistemas Cristalinos Bidimensionales
The main service offered by the Lab2D4 group is the development of PhD, Master, Bachelor or Licenciatura thesis for graduate and undergraduate students. The second more requested service is the advice in parallel computing. The Lab2D4 had a good expertise in parallel computing with Intel processor , -Xeon and x86-64-, and GPU Nvidia, Tesla processor. The future expertise which will be development in the next years is the experimental knowledge about 2D crystals such as blue phosphorene and transition metal dichalcogenides and 3D materials for Weyl and Majorana fermions.
The main service offered by the Lab2D4 group is the development of PhD, Master, Bachelor or Licenciatura thesis for graduate and undergraduate students. The second more requested service is the advice in parallel computing. The Lab2D4 had a good expertise in parallel computing with Intel processor , -Xeon and x86-64-, and GPU Nvidia, Tesla processor. The future expertise which will be development in the next years is the experimental knowledge about 2D crystals such as blue phosphorene and transition metal dichalcogenides and 3D materials for Weyl and Majorana fermions.
Infraestuctura
| Código | Tipo | Titulo del proyecto |
|---|---|---|
| PCONFIGI | Transporte electrónico en dispositivos 2D bajo el efecto de campos AC intensos | |
| PSINFIPU | Análisis de un sistema de control y de adquisición de datos | |
| PSINFIPU | Mediciones de superficies con patrones 2D desfocalizados | |
| PCONFIGI | Acoplamiento de portadores de carga y fonones en materiales topológicos | |
| PSINFIPU | prueba | |
| PSINFIPU | xxx | |
| B21130023 | PSINFIPU | Tight-binding methods for topological analisys in 2D materials |
| B21130033 | PSINFIPU | Patrones binarios para reconstruccion 3D |
| B20130360a | PTPBACHILLER | Aislantes topológicos en pozos cuánticos de HgTe/Hg_xCd_{1-x}Te |
| B19130082 | PSINFINV | Calibración de sistemas de adquisición de imágenes |
| B19131021 | PCONFIGI | Propiedades electrónicas de aislantes topológicos bidimensionales |
| B18130042 | PSINFINV | Propiedades térmicas de materiales para impresión 3D |
| B18131561 | PCONFIGI | An experimental laboratory setup for 2D crystals: Part 2 |
| B18134139e | ECI | microscopio de fuerza atomica |
| ECI | Instrumentation for optical analysis | |
| B17130102 | PSINFINV | Microscopio óptico: Función de transferencia |
| B17131161 | PCONFIGI | An experimental laboratory setup for 2D crystals |