Show Posts

This section allows you to view all posts made by this member. Note that you can only see posts made in areas you currently have access to.


Messages - Manish95

Pages: [1] 2 3
1
Does ATK use Wang and Landau algorithm for calculating DOS? How does Tetrahedron method calculate DOS? Can someone refer me to some article or book where i can read about the associated theory?

2
I did a DOS calculation of monolayer MoS2/Au system with thick vacuum (35 Ang) on the c direction. I got DOS like the one shown in figure. But in the band gap region, I don't get any region with 0 DOS for MoS2/Au system. My structure also does not seem like it has been optimized (not much change in position of Au atoms) although the geometry optimization showed that the structure has been optimized.

My question is, if I give the vacuum region too much, is it going to affect my calculations? And if yes, then why? I suppose if larger the vaccum, the better it is for Veff to decay smoothly.

3
Hi,

I have a monolayer MoS2 with 6 Au layer structure. But the unit cell type after interface formation is "Unit Cell". For DOS calculation should it be changed to some other Lattice type like that of MoS2 (Hexagonal).  If not, in DOS calculator, it asks for shifting the Gamma point, so how is the k-point decided for this unit cell?

4
I am studying the effect of presence of metals like Cr, Al etc. on top of monolayer MoS2. I want to see the strain with different crystal orientation of metals before I perform geometry optimization.

For this I used Builder > Interface. I placed monolayer MoS2 (with c = 50 Ang) on first drop zone and bulk metals (with different crystal orientation) in second drop zone. This gives me the strain on first zone as 0 % and second zone shows some strain. Is this strain value of the interface or simply of the bulk metal?

Will this strain value have same magnitude when I convert the bulk metal to molecule and place it randomly on top of MoS2?

5
I got band gap of 1.81 eV for monolayer MoS2 using OMX PP for both Mo and S atoms.  Shall I change to SG15 PP for all the atoms or only for Cr (and keep OMX PP for Mo and S atoms)?

6
Sounds like you should give it more time - 12 hours on 4 cores is probably not enough. Hard to say more without the log though.

I would also recommend that you use the PseudoDojo pseudopotentials instead. The OMX ones can be quite hard as described here: https://docs.quantumwise.com/manual/technicalnotes/atk_pseudo_basis/atk_pseudo_basis.html

I am using ATK version 2017.2 and it does not have PseudoDojo Pseudopotential. My band structure calculations for MoS2 were done with OMX PP for Mo and S atoms. So I was using OMX for Cr also. Can I use a different set of PP for Mo, S atoms and some other for Cr atom?

7
The calculation was running for more than 12 hours even though I ran the simulation on 4 cores. So I had to kill the process. I am unable to attach both log and script file due to size limitation here.

8
I have a 5x5 supercell monolayer MoS2, on top of it I have placed 2 Cr atoms (cleaved along 100) after converting them into molecule. I want to study the effect of Cr on DOS of MoS2. But the geometry optimization didn't converge. Any inputs?

9
Which pseudopotential should be used for metal (Cr)? I am performing geometry optimization with Cr molecule on top of monolayer MoS2 and using OMX pseudopotential for Mo and S atoms.

10
I have optimized the geometry of a 5x5 MoS2 monolayer supercell with a Sulfur vacancy. Now I need to find out its DOS, do I need to perform the SCF iteration again?

11
I want to simulate the thermal evaporation of Chromium under different pressure conditions for achieving good contact resistance and also perform transport calculations. How can this be achieved in ATK?

13
"The distribution of the point defects is non-uniform across the sample surface, with their native concentration typically ranging from 5x10^12 to 5 x10^13 cm−2 values" (doi: 10.1038/srep29726). This is the surface defect density of exfoliated MoS2 on Au. I want a similar comparison in terms of defect density in units of cm-2 not in terms of defects per unit volume.

14
I have a 3x3 supercell of MoS2. I have removed the S atom from the center  I want to calculate the defect density so that in my simulation, I can match it to the sulfur vacancy defect density in exfoliated 2H MoS2. Any inputs on how can I calculate it?

15
General Questions and Answers / Ionic Liquid based 2D FET
« on: January 24, 2019, 19:07 »
Is it possible in ATK to have a drop of Ionic Liquid (IL) like EMI-TFSI, DEME-TFSI etc. on top of my 2D material based FET for studying transport phenomenon?
I checked the database but there are no ILs present. If this is not possible, I was thinking of creating a slab around the channel and defining dielectric constant inside the slab equal to dielectric constant of  IL and then apply a very high transverse E field.  This will somewhat emulate an IL gated FET. But in order to increase carrier concentration in the channel, the channel needs to be doped. I don't understand how this doping should be done.

Can this slab idea be implemented in ATK?

Pages: [1] 2 3