<div dir="ltr">Have you checked primary / admm basis sets too, as well as the suggestions from Juerg?<div><br></div><div>You can use a smaller than 512 atom cell for testing convergence of basis sets.</div><div><br></div><div>Matt<br><br>On Monday, February 12, 2018 at 8:51:00 AM UTC, anurag vohra wrote:<blockquote class="gmail_quote" style="margin: 0;margin-left: 0.8ex;border-left: 1px #ccc solid;padding-left: 1ex;"><div dir="ltr">Hi Juerg,<div><br></div><div>Yes, I tried to increase cut-off radius still I get maximum opening of bandgap around 0.42 eV for cut-off radius of 8A. I have tried values higher than 1E-06 for EPS_SCHWARZ (minimum I went to 1E-07). I can still try it.</div><div><br></div><div>Regards,</div><div>Anurag<br><br>On Monday, 12 February 2018 09:12:19 UTC+1, jgh  wrote:<blockquote class="gmail_quote" style="margin:0;margin-left:0.8ex;border-left:1px #ccc solid;padding-left:1ex">Hi
<br>
<br>your cutoff radius and eps_schwarz are rather small. Have you tested
<br>those values for this system?
<br>
<br>regards
<br>
<br>Juerg
<br>------------------------------<wbr>------------------------------<wbr>--
<br>Juerg Hutter                         Phone : ++41 44 635 4491
<br>Institut für Chemie C                FAX   : ++41 44 635 6838
<br>Universität Zürich                   E-mail: <a rel="nofollow">hut...@chem.uzh.ch</a>
<br>Winterthurerstrasse 190
<br>CH-8057 Zürich, Switzerland
<br>------------------------------<wbr>------------------------------<wbr>---
<br>
<br>-----<a rel="nofollow">cp...@googlegroups.com</a> wrote: -----To: cp2k <<a rel="nofollow">cp...@googlegroups.com</a>>
<br>From: anurag vohra 
<br>Sent by: <a rel="nofollow">cp...@googlegroups.com</a>
<br>Date: 02/11/2018 12:48PM
<br>Subject: [CP2K:9982] Re: Ge bandgap calculations in CP2K using PBE0
<br>
<br>Hi,
<br>Any pointers please? Why I am getting underestimation of bandgap in case of Ge using PBE0? I tried the same for Silicon (both with and without OT using ADDED MOS). I get correct results and right opening of bandgap around 1.2eV for 2A cut-off radius.  
<br>Regards,Anurag
<br>
<br>On Monday, 29 January 2018 11:56:00 UTC+1, anurag vohra  wrote:Hi Matt,
<br>Thanks for your reply. I tried to run these simulations for 512 Ge atoms with DFT section below  (no errors in output files at-least) but there are some issues with value of band gap I get:
<br>According to output HOMO value is 0.14948205 a.u. (4.0676 eV), LUMO value is 0.16622340 a.u. (4.5231 eV) and Fermi energy is 3.882363 eV. Now two questions over here:   
<br>a) How Fermi level is below the HOMO level? It should be either at the same level as HOMO as known for CP2K or in between the band gap (between HOMO and LUMO)?
<br>b) Value of band gap is only 0.45 eV, whereas it is expected to overestimate the band gap ~1.2eV for Hartree-Fock exchange of 0.25. I am still trying to play with cut-off radius, maybe that will fix issue but is there anything else which could be wrong?
<br>Both input and outputs are given below.
<br>Regards,Anurag  
<br>Input:
<br>   &AUXILIARY_DENSITY_MATRIX_<wbr>METHOD      ADMM_PURIFICATION_METHOD NONE      METHOD BASIS_PROJECTION    &END AUXILIARY_DENSITY_MATRIX_<wbr>METHOD    &SCF      ADDED_MOS 20      MAX_SCF 200      EPS_SCF 1e-06      SCF_GUESS RESTART      &DIAGONALIZATION T        ALGORITHM STANDARD      &END DIAGONALIZATION      &MIXING T        NBUFFER 4        BETA 1.25        ALPHA 0.2        METHOD BROYDEN_MIXING      &END MIXING      &PRINT        &RESTART ON        &END RESTART      &END PRINT      &SMEAR ON        METHOD FERMI_DIRAC        ELECTRONIC_TEMPERATURE [K] 300      &END SMEAR    &END SCF    &XC      &XC_FUNCTIONAL NO_SHORTCUT        &PBE .TRUE.          SCALE_X 0.75          SCALE_C 1.0        &END PBE      &END XC_FUNCTIONAL      &HF        FRACTION 0.25        &INTERACTION_POTENTIAL          T_C_G_DATA /pseudos/CP2K/t_c_g.dat          POTENTIAL_TYPE TRUNCATED          CUTOFF_RADIUS 5.0        &END INTERACTION_POTENTIAL        &SCREENING          EPS_SCHWARZ 1e-06          EPS_SCHWARZ_FORCES 1e-05          SCREEN_ON_INITIAL_P .TRUE.        &END SCREENING        &MEMORY          EPS_STORAGE_SCALING 0.1          MAX_MEMORY 1280          MAX_DISK_SPACE 2560        &END MEMORY      &END HF    &END XC    &MGRID      CUTOFF 250      NGRIDS 4      REL_CUTOFF 60    &END MGRID    &QS      EPS_PGF_ORB 1e-32      EPS_DEFAULT 1e-10      EXTRAPOLATION ASPC      EXTRAPOLATION_ORDER 3    &END QS 
<br>
<br>Output:
<br>  Eigenvalues of the occupied subspace spin            1 ------------------------------<wbr>---------------      -0.36866786      -0.35966684      -0.35966682      -0.35966667      -0.35965497      -0.35965496      -0.35965493      -0.35085311      -0.35085308      -0.35085293      -0.35084203      -0.35084201      -0.35084199      -0.35084094      -0.35084091      -0.35084087      -0.35082991      -0.35082990      -0.35082981      -0.34233849      -0.34232863      -0.34232862      -0.34232284      -0.34231639      -0.34231470      -0.34231469      -0.34230397      -0.33260802      -0.33260767      -0.33260765      -0.33258344      -0.33258315      -0.33258297      -0.32446838      -0.32446831      -0.32446824      -0.32446817      -0.32446800      -0.32446798      -0.32445754      -0.32445749      -0.32445740      -0.32445732      -0.32445726      -0.32445718      -0.32444422      -0.32444412      -0.32444403      -0.32444393      -0.32444388      -0.32444376      -0.32443333      -0.32443332      -0.32443326      -0.32443311      -0.32443305      -0.32443299      -0.31715259      -0.31715254      -0.31715250      -0.31714386      -0.31714380      -0.31714378      -0.31714111      -0.31714099      -0.31714098      -0.31713109      -0.31713102      -0.31713101      -0.31712563      -0.31712558      -0.31712547      -0.31711948      -0.31711942      -0.31711941      -0.31711436      -0.31711430      -0.31711427      -0.31710701      -0.31710696      -0.31710688      -0.30070423      -0.30070420      -0.30070385      -0.30068189      -0.30068184      -0.30068150      -0.30067793      -0.30067792      -0.30067756      -0.30065361      -0.30065353      -0.30065319      -0.29721108      -0.29721042      -0.29721034      -0.29720261      -0.29720238      -0.29720224      -0.29719891      -0.29719881      -0.29719824      -0.29717683      -0.29717675      -0.29717662      -0.29717344      -0.29717340      -0.29717323      -0.29716280      -0.29716276      -0.29716261      -0.29715518      -0.29715492      -0.29715480      -0.29714478      -0.29714477      -0.29714459      -0.29316480      -0.29314705      -0.29314705      -0.29311726      -0.28754784      -0.28754735      -0.28754722      -0.28749841      -0.28749798      -0.28749794      -0.28116952      -0.28116939      -0.28116934      -0.28116899      -0.28116873      -0.28116871      -0.28115553      -0.28115544      -0.28115542      -0.28115514      -0.28115488      -0.28115488      -0.28112047      -0.28112038      -0.28112038      -0.28112036      -0.28112006      -0.28112002      -0.28110525      -0.28110524      -0.28110517      -0.28110512      -0.28110487      -0.28110483      -0.27781135      -0.27781133      -0.27780881      -0.27780103      -0.27780101      -0.27780040      -0.27780036      -0.27779583      -0.27779323      -0.27778528      -0.27776741      -0.27776740      -0.27775872      -0.27775327      -0.27775319      -0.27774543      -0.27773999      -0.27773992      -0.27773723      -0.27773716      -0.27773412      -0.27772811      -0.27772803      -0.27771704      -0.27394144      -0.27394142      -0.27394098      -0.27394098      -0.27394090      -0.27394089      -0.27392412      -0.27392410      -0.27392365      -0.27392364      -0.27392361      -0.27392354      -0.27389184      -0.27389178      -0.27389138      -0.27389134      -0.27389133      -0.27389122      -0.27387784      -0.27387781      -0.27387740      -0.27387738      -0.27387732      -0.27387732      -0.26421341      -0.26421329      -0.26421278      -0.26421276      -0.26421257      -0.26421252      -0.26419499      -0.26419499      -0.26419437      -0.26419428      -0.26419425      -0.26419402      -0.26416940      -0.26416933      -0.26416876      -0.26416867      -0.26416866      -0.26416838      -0.26415102      -0.26415097      -0.26415047      -0.26415034      -0.26415028      -0.26415023      -0.24317487      -0.24317478      -0.24317443      -0.24314999      -0.24314999      -0.24314978      -0.24313666      -0.24313662      -0.24313641      -0.24311188      -0.24311186      -0.24311167      -0.22521827      -0.22521170      -0.22521145      -0.22518784      -0.22518759      -0.22518116      -0.22330518      -0.22330517      -0.22330481      -0.22330460      -0.22330452      -0.22330419      -0.22329676      -0.22329674      -0.22329663      -0.22329623      -0.22329623      -0.22329619      -0.22328704      -0.22328703      -0.22328663      -0.22328650      -0.22328648      -0.22328611      -0.22326079      -0.22326072      -0.22326045      -0.22326043      -0.22326040      -0.22326023      -0.22127574      -0.22127572      -0.22127485      -0.22127483      -0.22127482      -0.22127481      -0.22125059      -0.22125058      -0.22124974      -0.22124967      -0.22124962      -0.22124959      -0.20211131      -0.20211128      -0.20211120      -0.20211070      -0.20211045      -0.20211036      -0.20209328      -0.20209323      -0.20209305      -0.20209261      -0.20209254      -0.20209251      -0.17749525      -0.17749523      -0.17749487      -0.17749486      -0.17749439      -0.17749435      -0.17749199      -0.17749198      -0.17749157      -0.17749154      -0.17749111      -0.17749105      -0.17747031      -0.17747017      -0.17746979      -0.17746979      -0.17746934      -0.17746933      -0.17746710      -0.17746683      -0.17746654      -0.17746647      -0.17746604      -0.17746595      -0.17663451      -0.17663447      -0.17663406      -0.17663405      -0.17663402      -0.17663402      -0.17661687      -0.17661687      -0.17661643      -0.17661643      -0.17661641      -0.17661635      -0.17659185      -0.17659182      -0.17659138      -0.17659136      -0.17659134      -0.17659131      -0.17658071      -0.17658066      -0.17658026      -0.17658020      -0.17658020      -0.17658018      -0.17498986      -0.17495580      -0.17495580      -0.17494972      -0.16629982      -0.16629090      -0.16629079      -0.16627983      -0.16627976      -0.16627618      -0.16626730      -0.16626584      -0.16626566      -0.16626559      -0.16626344      -0.16626339      -0.16624608      -0.16624605      -0.16623505      -0.16622735      -0.16622666      -0.16622660      -0.16622413      -0.16621929      -0.16621924      -0.16621413      -0.16621405      -0.16620999      -0.15643864      -0.15643861      -0.15643822      -0.15641993      -0.15641990      -0.15641952      -0.15640974      -0.15640971      -0.15640933      -0.15640687      -0.15640682      -0.15640644      -0.15639916      -0.15639905      -0.15639865      -0.15637050      -0.15637036      -0.15637000      -0.15636754      -0.15636742      -0.15636705      -0.15635491      -0.15635489      -0.15635449      -0.15595769      -0.15595767      -0.15595760      -0.15595741      -0.15595700      -0.15595698      -0.15595280      -0.15595279      -0.15595263      -0.15595259      -0.15595223      -0.15595212      -0.15592374      -0.15592371      -0.15592362      -0.15592355      -0.15592308      -0.15592308      -0.15591903      -0.15591899      -0.15591895      -0.15591880      -0.15591842      -0.15591840      -0.14768194      -0.14768166      -0.14768159      -0.14764491      -0.14764461      -0.14764457      -0.13183868      -0.13183866      -0.13183795      -0.13183178      -0.13183175      -0.13183103      -0.13181765      -0.13181762      -0.13181700      -0.13181699      -0.13181688      -0.13181625      -0.11570346      -0.11570339      -0.11570334      -0.11569256      -0.11569252      -0.11569215      -0.11567034      -0.11567029      -0.11567011      -0.11566072      -0.11566058      -0.11566053      -0.11565523      -0.11565521      -0.11565496      -0.11565360      -0.11565331      -0.11565325      -0.11563052      -0.11563046      -0.11563007      -0.11561907      -0.11561901      -0.11561888      -0.08482937      -0.08482932      -0.08482926      -0.08482894      -0.08482888      -0.08482880      -0.08482853      -0.08482849      -0.08482844      -0.08482825      -0.08482824      -0.08482814      -0.08481141      -0.08481136      -0.08481128      -0.08481101      -0.08481097      -0.08481082      -0.08481066      -0.08481060      -0.08481054      -0.08481028      -0.08481026      -0.08481015      -0.05825905      -0.05825889      -0.05825827      -0.05824506      -0.05824503      -0.05824435      -0.05734804      -0.05732222      -0.05730741      -0.05730739      -0.05728647      -0.05727187      -0.05727185      -0.05724086      -0.03661424      -0.03661396      -0.03661392      -0.03660754      -0.03660722      -0.03660722      -0.03660146      -0.03660119      -0.03660113      -0.03659480      -0.03659450      -0.03659446      -0.03480640      -0.03480639      -0.03480637      -0.03480634      -0.03480605      -0.03480602      -0.03480175      -0.03480173      -0.03480171      -0.03480167      -0.03480138      -0.03480135      -0.03478846      -0.03478846      -0.03478836      -0.03478831      -0.03478813      -0.03478801      -0.03478375      -0.03478373      -0.03478369      -0.03478367      -0.03478339      -0.03478335      -0.01877226      -0.01877225      -0.01877188      -0.01877182      -0.01877169      -0.01877167      -0.01876220      -0.01876218      -0.01876182      -0.01876174      -0.01876173      -0.01876167      -0.01735588      -0.01735507      -0.01735502      -0.01734532      -0.01734501      -0.01734451      -0.01734450      -0.01734419      -0.01734410      -0.01733359      -0.01733277      -0.01733274      -0.01255620      -0.01255593      -0.01255524      -0.01255521      -0.01255503      -0.01255492      -0.01253771      -0.01253738      -0.01253674      -0.01253669      -0.01253643      -0.01253642      -0.01181980      -0.01181979      -0.01181896      -0.01181732      -0.01181709      -0.01181709      -0.01181584      -0.01181562      -0.01181559      -0.01181418      -0.01181371      -0.01181371      -0.01181113      -0.01180909      -0.01180908      -0.01180529      -0.011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<br>On Thursday, 25 January 2018 16:40:09 UTC+1, Matt W  wrote:It should work. But you should carefully check that changing from purification to no purification does not much effect your results (total energies will change, but energy difference etc should be only very slightly effected).
<br>Matt
<br>
<br>On Thursday, January 25, 2018 at 3:28:30 PM UTC, anurag vohra wrote:Hi,
<br>Is there any reference available where bandgap of Ge is calculated using PBE0 functional in CP2K?
<br>I am aware of this link:
<br><a href="https://www.cp2k.org/_media/events:2015_user_meeting:cp2k-uk-2015-ling.pdf" rel="nofollow" target="_blank" onmousedown="this.href='https://www.google.com/url?q\x3dhttps%3A%2F%2Fwww.cp2k.org%2F_media%2Fevents%3A2015_user_meeting%3Acp2k-uk-2015-ling.pdf\x26sa\x3dD\x26sntz\x3d1\x26usg\x3dAFQjCNHyK5HoYpM3qc2gdqgCVtzzZrbpMQ';return true;" onclick="this.href='https://www.google.com/url?q\x3dhttps%3A%2F%2Fwww.cp2k.org%2F_media%2Fevents%3A2015_user_meeting%3Acp2k-uk-2015-ling.pdf\x26sa\x3dD\x26sntz\x3d1\x26usg\x3dAFQjCNHyK5HoYpM3qc2gdqgCVtzzZrbpMQ';return true;">https://www.cp2k.org/_media/<wbr>events:2015_user_meeting:cp2k-<wbr>uk-2015-ling.pdf</a>
<br>
<br>However, this code doesn't allows to use OT together with added MOS. Also Purification method (MO_DIAG) in ADMM only works together with OT.  
<br>&AUXILIARY_DENSITY_MATRIX_<wbr>METHODMETHOD BASIS_PROJECTIONADMM_<wbr>PURIFICATION_METHOD MO_DIAG&END AUXILIARY_DENSITY_MATRIX_<wbr>METHOD
<br>Is it ok to run these simulations without any purification method & OT? I am adding extra MOS over here. Standard diagonalization, broyden mixing and smearing is used for single point energy calculation.   
<br>Regards,Anurag 
<br>
<br>
<br>
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<br></blockquote></div></div></blockquote></div></div>