SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2902016752> ?p ?o ?g. }

Showing items 1 to 100 of ±174 with 100 items per page.

W2902016752 abstract "We show that a quadratic system of pseudofermions, with tunable fractionalised statistics, can host a rich phase diagram on a one dimensional chain with nearest and next nearest neighbor hopping. Using a combination of numerical and analytical techniques, we show that that by varying the statistical angle and the ratio of the hopping, the system stabilizes two Tomonaga-Luttinger liquids (TLL) with central charges c = 1 and 2 respectively along with the inversion symmetry broken bond ordered (BO) insulating phase. Interestingly, the two quantum phase transitions in the system - (1) between the two TLLs, and, (2) the c = 1 TLL and BO phase can be engendered by solely tuning the statistics of the pseudofermions. Our analysis shows that both these transition are continuous and novel with the former lacking a local order-parameter based description and the latter of Berezinskii-Kosterlitz-Thouless type. These phases and phase transitions can be of direct experimental relevance in context of recent studies of fermionic cold atoms." @default.
W2902016752 created "2018-12-11" @default.
W2902016752 creator A5007894072 @default.
W2902016752 creator A5044807897 @default.
W2902016752 creator A5051068811 @default.
W2902016752 creator A5077211376 @default.
W2902016752 date "2019-04-17" @default.
W2902016752 modified "2023-09-23" @default.
W2902016752 title "Statistics-tuned phases of pseudofermions in one dimension" @default.
W2902016752 cites W1510374214 @default.
W2902016752 cites W1587442279 @default.
W2902016752 cites W1597975242 @default.
W2902016752 cites W1602301868 @default.
W2902016752 cites W1614835886 @default.
W2902016752 cites W1739343289 @default.
W2902016752 cites W1832403211 @default.
W2902016752 cites W1890773901 @default.
W2902016752 cites W1970159789 @default.
W2902016752 cites W1971484191 @default.
W2902016752 cites W1973972788 @default.
W2902016752 cites W1981362882 @default.
W2902016752 cites W1984794586 @default.
W2902016752 cites W1990516747 @default.
W2902016752 cites W1990885492 @default.
W2902016752 cites W1995084759 @default.
W2902016752 cites W1998361389 @default.
W2902016752 cites W2008629883 @default.
W2902016752 cites W2013457657 @default.
W2902016752 cites W2014627208 @default.
W2902016752 cites W2016369186 @default.
W2902016752 cites W2019403724 @default.
W2902016752 cites W2020179791 @default.
W2902016752 cites W2024582549 @default.
W2902016752 cites W2026604379 @default.
W2902016752 cites W2042131385 @default.
W2902016752 cites W2043356330 @default.
W2902016752 cites W2045649013 @default.
W2902016752 cites W2050368830 @default.
W2902016752 cites W2053391977 @default.
W2902016752 cites W2057117835 @default.
W2902016752 cites W2061034105 @default.
W2902016752 cites W2065508184 @default.
W2902016752 cites W2070421818 @default.
W2902016752 cites W2074825250 @default.
W2902016752 cites W2076085919 @default.
W2902016752 cites W2091804373 @default.
W2902016752 cites W2139262393 @default.
W2902016752 cites W2142722633 @default.
W2902016752 cites W2150094752 @default.
W2902016752 cites W2150224077 @default.
W2902016752 cites W2171620128 @default.
W2902016752 cites W2211221327 @default.
W2902016752 cites W2278840435 @default.
W2902016752 cites W2337562964 @default.
W2902016752 cites W2342831594 @default.
W2902016752 cites W2510473361 @default.
W2902016752 cites W2520340336 @default.
W2902016752 cites W2522542040 @default.
W2902016752 cites W2524446050 @default.
W2902016752 cites W2529214449 @default.
W2902016752 cites W2560220048 @default.
W2902016752 cites W2588861892 @default.
W2902016752 cites W2590867350 @default.
W2902016752 cites W2603246179 @default.
W2902016752 cites W2608794084 @default.
W2902016752 cites W275567982 @default.
W2902016752 cites W2767370229 @default.
W2902016752 cites W2771931986 @default.
W2902016752 cites W2785811775 @default.
W2902016752 cites W2786250897 @default.
W2902016752 cites W2792505362 @default.
W2902016752 cites W2794680116 @default.
W2902016752 cites W2810636979 @default.
W2902016752 cites W2891575396 @default.
W2902016752 cites W2964194095 @default.
W2902016752 cites W3098259537 @default.
W2902016752 cites W3101001549 @default.
W2902016752 cites W3102542278 @default.
W2902016752 cites W3102672823 @default.
W2902016752 cites W3105605562 @default.
W2902016752 cites W3105961626 @default.
W2902016752 cites W3125378746 @default.
W2902016752 cites W382441907 @default.
W2902016752 cites W4235284319 @default.
W2902016752 cites W4299485645 @default.
W2902016752 cites W62207455 @default.
W2902016752 cites W805196197 @default.
W2902016752 doi "https://doi.org/10.1103/physrevb.99.165125" @default.
W2902016752 hasPublicationYear "2019" @default.
W2902016752 type Work @default.
W2902016752 sameAs 2902016752 @default.
W2902016752 citedByCount "4" @default.
W2902016752 countsByYear W29020167522020 @default.
W2902016752 countsByYear W29020167522021 @default.
W2902016752 crossrefType "journal-article" @default.
W2902016752 hasAuthorship W2902016752A5007894072 @default.
W2902016752 hasAuthorship W2902016752A5044807897 @default.
W2902016752 hasAuthorship W2902016752A5051068811 @default.
W2902016752 hasAuthorship W2902016752A5077211376 @default.
W2902016752 hasBestOaLocation W29020167522 @default.