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Journal articles on the topic 'BaCoS2'

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Published: 25 May 2024

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1

Baenziger, N. C., L. Grout, L. S. Martinson, and J. W. Schweitzer. "BaCoS2." Acta Crystallographica Section C Crystal Structure Communications 50, no. 9 (September 15, 1994): 1375–77. http://dx.doi.org/10.1107/s0108270194003707.

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2

Mandrus, D., J. L. Sarrao, B. C. Chakoumakos, J. A. Fernandez-Baca, S. E. Nagler, and B. C. Sales. "Magnetism in BaCoS2." Journal of Applied Physics 81, no. 8 (April 15, 1997): 4620–22. http://dx.doi.org/10.1063/1.365182.

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3

BAENZIGER, N. C., L. GROUT, L. S. MARTINSON, and J. W. SCHWEITZER. "ChemInform Abstract: BaCoS2." ChemInform 26, no. 4 (August 18, 2010): no. http://dx.doi.org/10.1002/chin.199504036.

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4

Hase, Izumi, Naoki Shirakawa, and Yoshikazu Nishihara. "Electronic Structures of BaNiS2and BaCoS2." Journal of the Physical Society of Japan 64, no. 7 (July 15, 1995): 2533–40. http://dx.doi.org/10.1143/jpsj.64.2533.

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5

Gelabert, M. C., N. E. Brese, F. J. DiSalvo, S. Jobic, P. Deniard, and R. Brec. "Polymorphism and Superstructure in BaCoS2−δ." Journal of Solid State Chemistry 127, no. 2 (December 1996): 211–21. http://dx.doi.org/10.1006/jssc.1996.0377.

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6

Yasui, Yukio, Hisashi Sasaki, Masatoshi Sato, Masashi Ohashi, Yoshiaki Sekine, Chizuko Murayama, and Nobuo Môri. "Studies of Pressure-Induced Mott Metal-Insulator Transition of BaCoS2." Journal of the Physical Society of Japan 68, no. 4 (April 15, 1999): 1313–20. http://dx.doi.org/10.1143/jpsj.68.1313.

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7

Snyder, G. Jeffrey, Maria C. Gelabert, and F. J. DiSalvo. "Refined Structure and Properties of the Layered Mott Insulator BaCoS2." Journal of Solid State Chemistry 113, no. 2 (December 1994): 355–61. http://dx.doi.org/10.1006/jssc.1994.1380.

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8

Kanada, M., H. Harashina, H. Sasaki, K. Kodama, M. Sato, K. Kakurai, M. Nishi, et al. "High-pressure neutron and X-ray studies on the Mott transition of BaCoS2." Journal of Physics and Chemistry of Solids 60, no. 8-9 (September 1999): 1181–83. http://dx.doi.org/10.1016/s0022-3697(99)00078-5.

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9

Irizawa, Akinori, Kazuyoshi Yoshimura, Koji Kosuge, Christian Dusek, Herwig Michor, and Gerfried Hilscher. "Magnetic and Transport Properties of Electron-Doped BaCoS2: Coexistence of Antiferromagnetism and Metallic Conductivity." Journal of the Physical Society of Japan 68, no. 9 (September 15, 1999): 3016–21. http://dx.doi.org/10.1143/jpsj.68.3016.

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10

Zainullina, V. M., N. A. Skorikov, and M. A. Korotin. "Description of the pressure-induced insulator-metal transition in BaCoS2 within the LDA + DMFT approach." Physics of the Solid State 54, no. 9 (September 2012): 1864–69. http://dx.doi.org/10.1134/s1063783412090314.

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11

Harashina, H., H. Sasaki, K. Kodama, S. Shamoto, M. Sato, K. Kakurai, and M. Nishi. "Magnetic Excitation of BaCoS2 near the Mott Transitions Induced by Pressure and Carrier-Number Control." REVIEW OF HIGH PRESSURE SCIENCE AND TECHNOLOGY 7 (1998): 638–40. http://dx.doi.org/10.4131/jshpreview.7.638.

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12

Zainullina, V. M., and M. A. Korotin. "Ground state of BaCoS2 as a set of energy-degenerate orbital-ordered configurations of Co2+ ions." Physics of the Solid State 53, no. 5 (May 2011): 978–84. http://dx.doi.org/10.1134/s1063783411050325.

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13

Đordević, Tamara. "BaCo2(AsO4)2." Acta Crystallographica Section E Structure Reports Online 64, no. 9 (August 16, 2008): i58—i59. http://dx.doi.org/10.1107/s1600536808025865.

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14

Abo El Ata, A. M., M. K. El Nimr, D. El Kony, and A. H. Al-Hammadi. "Conduction mechanism of BaCo2−xNixFe16O27." Journal of Magnetism and Magnetic Materials 202, no. 2-3 (August 1999): 397–404. http://dx.doi.org/10.1016/s0304-8853(99)00387-x.

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15

Fuentes, Omar, Chong Zheng, Catherine E. Check, Jianhua Zhang, and Gerardo Chacon. "Synthesis and Structural Analysis of BaCrS2." Inorganic Chemistry 38, no. 8 (April 1999): 1889–93. http://dx.doi.org/10.1021/ic980609p.

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16

Green, Kevin R., and Raymond J. Spiteri. "Extended BACOLI." ACM Transactions on Mathematical Software 45, no. 1 (March 28, 2019): 1–19. http://dx.doi.org/10.1145/3301320.

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17

Bircsak, Z., and W. T. A. Harrison. "Barium Cobalt Phosphate, BaCo2(PO4)2." Acta Crystallographica Section C Crystal Structure Communications 54, no. 11 (November 15, 1998): 1554–56. http://dx.doi.org/10.1107/s010827019800794x.

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18

Ismael, H., M. K. El Nimr, A. M. Abou El Ata, M. A. El Hiti, M. A. Ahmed, and A. A. Murakhowskii. "Dielectric behavior of hexaferrites BaCo2−xZnxFe16O27." Journal of Magnetism and Magnetic Materials 150, no. 3 (November 1995): 403–8. http://dx.doi.org/10.1016/0304-8853(95)00278-2.

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19

Gu, Yuhao, Xianxin Wu, Kun Jiang, and Jiangping Hu. "BaCuS2: A Superconductor with Moderate Electron-Electron Correlation*." Chinese Physics Letters 38, no. 1 (January 1, 2021): 017501. http://dx.doi.org/10.1088/0256-307x/38/1/017501.

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20

Shugurov, S. M., and S. I. Lopatin. "Thermodynamics of gaseous cobaltates CaCoO2, SrCoO2 and BaCoO2." Journal of Chemical Thermodynamics 37, no. 7 (July 2005): 715–19. http://dx.doi.org/10.1016/j.jct.2004.08.014.

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21

Fuentes, Omar, Chong Zheng, Catherine E. Check, Jianhua Zhang, and Gerardo Chacon. "ChemInform Abstract: Synthesis and Structural Analysis of BaCrS2." ChemInform 30, no. 25 (June 15, 2010): no. http://dx.doi.org/10.1002/chin.199925009.

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22

Kim, Hyunkyu, Byung Ug Ko, In-Bo Shim, Bo Wha Lee, and Chul Sung Kim. "Mössbauer Studies Magnetic Properties of BaCo2−xZnxFe16O27." IEEE Transactions on Magnetics 51, no. 11 (November 2015): 1–3. http://dx.doi.org/10.1109/tmag.2015.2431746.

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23

Abo El Ata, A. M., and M. A. Ahmed. "Dielectric and AC conductivity for BaCo2−xCuxFe16O27 ferrites." Journal of Magnetism and Magnetic Materials 208, no. 1-2 (January 2000): 27–36. http://dx.doi.org/10.1016/s0304-8853(99)00547-8.

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24

Bircsak, Zsolt, and William T. A. Harrison. "ChemInform Abstract: Barium Cobalt Phosphate, BaCo2(PO4)2." ChemInform 30, no. 8 (June 17, 2010): no. http://dx.doi.org/10.1002/chin.199908003.

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25

Stančienė, Dalia Marija. "Rogerio Bacono mokslo vizija." LOGOS 91 (2017): 39–46. http://dx.doi.org/10.24101/logos.2017.25.

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26

Diatta, Aliou, Pascale Armand, and Jérôme Rouquette. "Insertion/disinsertion of oxygen in BaCoO2+x (0 ≤ x ≤ 1)." Acta Crystallographica Section A Foundations and Advances 74, a2 (August 22, 2018): e260-e261. http://dx.doi.org/10.1107/s2053273318091258.

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27

Collomb, A., D. Samaras, S. Hadjivasiliou, C. Achilleos, J. Tsoukalas, J. Pannetier, and J. Rodriguez. "Easy‐axis reorientation in the BaCo2‐W hexagonal ferrite." Journal of Applied Physics 64, no. 10 (November 15, 1988): 5983–85. http://dx.doi.org/10.1063/1.342170.

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28

Corrêa, R. R., C. W. Pachoal, and J. L. P. Dominici. "Preparação e caracterização da hexaferrita de bário dopada com niquel e cobalto." Cerâmica 59, no. 352 (December 2013): 518–21. http://dx.doi.org/10.1590/s0366-69132013000400005.

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O objetivo deste trabalho foi a obtenção de ferritas de bário tipo W com estequiometria BaCo2-xNi xFe16O27 por meio do método cerâmico tradicional, que é muito difundindo nas indústrias de processamento cerâmico por ser econômico e de relativa facilidade na obtenção de pós-cerâmicos. Materiais aditivados podem afetar as propriedades elétricas, magnéticas e a microestrutura das ferritas por diferentes mecanismos. Assim, temos como objetivo investigar o efeito da substituição dos elementos cobalto e níquel na microestrutura da hexaferrita tipo W com fórmula estequiométrica BaCo2-xNi xFe16O27, x = 0,0, 0,6, 1,0 e 2.
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29

Ramachandran, Cheppail, Karl-Werner Quirin, Enrique Escalon, and Steven J. Melnick. "Improved Neuroprotective Effects by Combining Bacopa monnieri and Rosmarinus officinalis Supercritical CO2 Extracts." Journal of Evidence-Based Complementary & Alternative Medicine 19, no. 2 (February 25, 2014): 119–27. http://dx.doi.org/10.1177/2156587214524577.

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Ethnobotanical evidence suggests that herbs such as brahmi ( Bacopa monnieri) and rosemary ( Rosmarinus officinalis) may possess antioxidant and neuroprotective properties. We compared the antioxidant and neuroprotective effects of supercritical extract of Bacopa monnieri and rosemary antioxidant extract obtained from Rosmarinus officinalis as well as their combination to examine the effects on human glial (U-87 MG) and embryonic mouse hypothalamus cells. Bacopa monnieri extract, rosemary antioxidant extract, and their combination (1:1) are not cytotoxic in both glial and embryonic mouse hypothalamus cell lines up to 200 μg/mL concentration. The combination of extracts of Bacopa monnieri + rosemary antioxidant has better antioxidant potential and antilipid peroxidation activity than either agent alone. Although the extract of Bacopa monnieri + rosemary antioxidant showed almost similar inhibition of phospho tau expression as Bacopa monnieri or rosemary antioxidant extract alone, the combination has better inhibitory effect on amyloid precursor protein synthesis and higher brain-derived neurotrophic factor production in hypothalamus cells than single agents. These results suggest that the extract of Bacopa monnieri + rosemary antioxidant is more neuroprotective than Bacopa monnieri or rosemary antioxidant extract.
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30

Editorial, E. "Corrigendum: Experimental approach for catalytic combustion of biogas: Preliminary research." Thermal Science, no. 00 (2023): 191. http://dx.doi.org/10.2298/tsci230918191e.

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Simeon Oka, Editor-in-Chief Emeritus of the journal Thermal Science request that it is, due to error of the authors, necessary to correct family name of the 1st author of the paper EXPERIMENTAL APPROACH FOR CATALYTIC COMBUSTION OF BIOGAS Preliminary Research by Stefan IZVOREANUa, Adrian Eugen CIOABLAa, Timotei Bogdan BACOSa*, Andrei Tiberiu BORBOREANa, Srbislav B. GENICb, Dorin LELEAa, Francisc POPESCUa, and Maja S. TRUMICc a Faculty of Mechanical Engineering, University Politehnica Timisoara, Timisoara, Romania b Faculty of Mechanical Engineering, University of Belgrade, Belgrade, Serbia c Technical Faculty in Bor, University of Belgrade, Bor, Serbia Original scientific paper https://doi.org/10.2298/TSCI220716182I published in the journal Thermal Science, Year 2023, Vol. 27, No. 2B, pp. 1383-1392 since by the error of the Corresponding author, FAMILY name of the 1st author was not correctly written. Instead of: Stefan IZVOREANUa, Adrian Eugen CIOABLAa, Timotei Bogdan BACOSa*, Andrei Tiberiu BORBOREANa, Srbislav B. GENICb, Dorin LELEAa, Francisc POPESCUa, and Maja S. TRUMICc has to be written: Stefan IZVOREANa, Adrian Eugen CIOABLAa, Timotei Bogdan BACOSa*, Andrei Tiberiu BORBOREANa, Srbislav B. GENICb, Dorin LELEAa, Francisc POPESCUa, and Maja S. TRUMICc <br><br><font color="red"><b> Link to the corrected article <u><a href="http://dx.doi.org/10.2298/TSCI220716182I">10.2298/TSCI220716182I</a></b></u>
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31

Salter, Edward J. T., Jack N. Blandy, and Simon J. Clarke. "Crystal and Magnetic Structures of the Oxide Sulfides CaCoSO and BaCoSO." Inorganic Chemistry 55, no. 4 (January 29, 2016): 1697–701. http://dx.doi.org/10.1021/acs.inorgchem.5b02615.

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32

Collomb, A., O. Abdelkader, A. Isalgué, and J. P. Mignot. "Propriétés magnétiques des ferrites hexagonaux: BaMg2–W et BaCo2–W." physica status solidi (a) 97, no. 2 (October 16, 1986): 511–19. http://dx.doi.org/10.1002/pssa.2210970224.

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33

Yin, Peng-Wu, Xian-Guo Guo, Dao-Chao Jin, Rong Fan, Cheng-Fu Zhao, Zhi-Wei Zhang, Xiao-Bin Huang, and Ke-Yu Mao. "Distribution and Host Selection of Tropical Rat Mite, Ornithonyssus bacoti, in Yunnan Province of Southwest China." Animals 11, no. 1 (January 7, 2021): 110. http://dx.doi.org/10.3390/ani11010110.

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(1) Background: As a species of gamasid mite, the tropical rat mite (Ornithonyssus bacoti) is a common ectoparasite on rodents and some other small mammals. Besides stinging humans to cause dermatitis, O. bacoti can be a vector of rickettsia pox and a potential vector of hemorrhagic fever with renal syndrome (HFRS). (2) Objective: The present study was conducted to understand the host selection of O. bacoti on different animal hosts and the distribution in different environmental gradients in Yunnan Province of Southwest China. (3) Methods: The original data came from the investigations in 39 counties of Yunnan, between 1990 and 2015. The animal hosts, rodents and some other small mammals were mainly trapped with mouse traps. The O. bacoti mites on the body surface of animal hosts were collected and identified in a conventional way. The constituent ratio (Cr), prevalence (PM), mean abundance (MA) and mean intensity (MI) were used to reflect infestations of animal hosts with O. bacoti mites. The patchiness index and Taylor’s power law were used to measure the spatial distribution pattern of O. bacoti mites on their hosts. (4) Results: A total of 4121 tropical rat mites (O. bacoti) were identified from 15 species and 14,739 individuals of hosts, and 99.20% of them were found on rodents. More than half of O. bacoti mites (51.78%) were identified from the Asian house rat (Rattus tanezumi), and 40.09% of the mites from the Norway rat (R. norvegicus) (p < 0.05). The infestations of R. tanezumi (PM = 7.61%, MA = 0.40 and MI = 5.31) and R. norvegicus (PM = 10.98, MA = 1.14 and MI = 10.39) with O. bacoti mites were significantly higher than those of other host species (p < 0.05). The infestations of two dominant rat hosts (R. tanezumi and R. norvegicus) with O. bacoti mites varied in different environmental gradients (latitudes, longitudes, altitudes, landscapes and habitats) and on different sexes and ages of the hosts. The prevalence of juvenile R. norvegicus rats with O. bacoti mites (PM = 12.90%) was significantly higher than that of adult rats (PM = 9.62%) (p < 0.05). The prevalence (PM = 38.46%) and mean abundance (MA = 2.28 mites/host) of R. tanezumi rats with O. bacoti mites in the high latitude were higher than those in the low latitudes (p < 0.05). The majority of the total collected 4121 O. bacoti mites was found in the flatland landscape (91.28%) and indoor habitat (73.48%) (p < 0.05). The PM (10.66%) and MA (0.49 mites/host) of R. tanezumi rats with O. bacoti mites were significantly higher in the indoor habitat than in the outdoor habitat (p < 0.05). The tropical rat mites showed an aggregated distribution pattern on their first dominant host, R. tanezumi. Conclusion: The tropical rat mite (O. bacoti) is a widely distributed species of gamasid mite in Yunnan Province, Southwest China, and its dominant hosts are two synanthropic species of rats, R. tanezumi and R. norvegicus. It is mainly distributed in the flatland landscape and indoor habitat. It has some host-specificity, with a preference to rodents, especially R. tanezumi and R. norvegicus. The O. bacoti mites are of aggregated distribution on R. tanezumi rats.
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34

Yin, Peng-Wu, Xian-Guo Guo, Dao-Chao Jin, Rong Fan, Cheng-Fu Zhao, Zhi-Wei Zhang, Xiao-Bin Huang, and Ke-Yu Mao. "Distribution and Host Selection of Tropical Rat Mite, Ornithonyssus bacoti, in Yunnan Province of Southwest China." Animals 11, no. 1 (January 7, 2021): 110. http://dx.doi.org/10.3390/ani11010110.

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(1) Background: As a species of gamasid mite, the tropical rat mite (Ornithonyssus bacoti) is a common ectoparasite on rodents and some other small mammals. Besides stinging humans to cause dermatitis, O. bacoti can be a vector of rickettsia pox and a potential vector of hemorrhagic fever with renal syndrome (HFRS). (2) Objective: The present study was conducted to understand the host selection of O. bacoti on different animal hosts and the distribution in different environmental gradients in Yunnan Province of Southwest China. (3) Methods: The original data came from the investigations in 39 counties of Yunnan, between 1990 and 2015. The animal hosts, rodents and some other small mammals were mainly trapped with mouse traps. The O. bacoti mites on the body surface of animal hosts were collected and identified in a conventional way. The constituent ratio (Cr), prevalence (PM), mean abundance (MA) and mean intensity (MI) were used to reflect infestations of animal hosts with O. bacoti mites. The patchiness index and Taylor’s power law were used to measure the spatial distribution pattern of O. bacoti mites on their hosts. (4) Results: A total of 4121 tropical rat mites (O. bacoti) were identified from 15 species and 14,739 individuals of hosts, and 99.20% of them were found on rodents. More than half of O. bacoti mites (51.78%) were identified from the Asian house rat (Rattus tanezumi), and 40.09% of the mites from the Norway rat (R. norvegicus) (p < 0.05). The infestations of R. tanezumi (PM = 7.61%, MA = 0.40 and MI = 5.31) and R. norvegicus (PM = 10.98, MA = 1.14 and MI = 10.39) with O. bacoti mites were significantly higher than those of other host species (p < 0.05). The infestations of two dominant rat hosts (R. tanezumi and R. norvegicus) with O. bacoti mites varied in different environmental gradients (latitudes, longitudes, altitudes, landscapes and habitats) and on different sexes and ages of the hosts. The prevalence of juvenile R. norvegicus rats with O. bacoti mites (PM = 12.90%) was significantly higher than that of adult rats (PM = 9.62%) (p < 0.05). The prevalence (PM = 38.46%) and mean abundance (MA = 2.28 mites/host) of R. tanezumi rats with O. bacoti mites in the high latitude were higher than those in the low latitudes (p < 0.05). The majority of the total collected 4121 O. bacoti mites was found in the flatland landscape (91.28%) and indoor habitat (73.48%) (p < 0.05). The PM (10.66%) and MA (0.49 mites/host) of R. tanezumi rats with O. bacoti mites were significantly higher in the indoor habitat than in the outdoor habitat (p < 0.05). The tropical rat mites showed an aggregated distribution pattern on their first dominant host, R. tanezumi. Conclusion: The tropical rat mite (O. bacoti) is a widely distributed species of gamasid mite in Yunnan Province, Southwest China, and its dominant hosts are two synanthropic species of rats, R. tanezumi and R. norvegicus. It is mainly distributed in the flatland landscape and indoor habitat. It has some host-specificity, with a preference to rodents, especially R. tanezumi and R. norvegicus. The O. bacoti mites are of aggregated distribution on R. tanezumi rats.
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35

Lenz, Benjamin, Michele Fabrizio, and Michele Casula. "Order from disorder phenomena in BaCoS2." Communications Physics 7, no. 1 (January 16, 2024). http://dx.doi.org/10.1038/s42005-023-01514-4.

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AbstractAt TN ≃ 300K the layered insulator BaCoS2 transitions to a columnar antiferromagnet that signals non-negligible magnetic frustration despite the relatively high TN, all the more surprising given its quasi two-dimensional structure. Here, we show, by combining ab initio and model calculations, that the magnetic transition is an order-from-disorder phenomenon, which not only drives the columnar magnetic order, but also the inter-layer coherence responsible for the finite Néel transition temperature. This uncommon ordering mechanism, actively contributed by orbital degrees of freedom, hints at an abundance of low energy excitations above and across the Néel transition, in agreement with experimental evidence.
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36

Santos-Cottin, D., Y. Klein, Ph Werner, T. Miyake, L. de' Medici, A. Gauzzi, R. P. S. M. Lobo, and M. Casula. "Linear behavior of the optical conductivity and incoherent charge transport in BaCoS2." Physical Review Materials 2, no. 10 (October 1, 2018). http://dx.doi.org/10.1103/physrevmaterials.2.105001.

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37

Guguchia, Z., B. A. Frandsen, D. Santos-Cottin, S. C. Cheung, Z. Gong, Q. Sheng, K. Yamakawa, et al. "Probing the quantum phase transition in Mott insulator BaCoS2 tuned by pressure and Ni substitution." Physical Review Materials 3, no. 4 (April 5, 2019). http://dx.doi.org/10.1103/physrevmaterials.3.045001.

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38

Qin, Shengshan, Yinxiang Li, Qiang Zhang, Congcong Le, and Jiangping Hu. "Theoretical studies of superconductivity in doped BaCoSO." Frontiers of Physics 13, no. 3 (February 17, 2018). http://dx.doi.org/10.1007/s11467-018-0745-7.

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39

Song, Yuanhe, Xianshi Liu, Dong Wu, Qi Yao, Chenhaoping Wen, Maxim Avdeev, Rui Peng, et al. "Magnetic and electronic properties of single-crystalline BaCoSO." Physical Review B 100, no. 20 (November 21, 2019). http://dx.doi.org/10.1103/physrevb.100.205130.

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40

"R v Bacash." Victorian Reports 3 VR (2001): 428–36. http://dx.doi.org/10.25291/vr/3-vr-428.

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41

"Table of Contents & Bacode." Journal of Surgical Education 78, no. 2 (March 2021): ii—iv. http://dx.doi.org/10.1016/s1931-7204(21)00025-8.

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42

"Table of Contents & Bacode." Journal of Surgical Education 78, no. 3 (May 2021): ii—iv. http://dx.doi.org/10.1016/s1931-7204(21)00082-9.

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43

"Table of Contents & Bacode." Journal of Surgical Education 79, no. 5 (September 2022): ii—iii. http://dx.doi.org/10.1016/s1931-7204(22)00195-7.

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44

"Table of Contents & Bacode." Journal of Surgical Education 79, no. 4 (July 2022): ii—iii. http://dx.doi.org/10.1016/s1931-7204(22)00123-4.

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"Table of Contents & Bacode." Journal of Surgical Education 79, no. 3 (May 2022): ii—iii. http://dx.doi.org/10.1016/s1931-7204(22)00073-3.

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"Table of Contents & Bacode." Journal of Surgical Education 78, no. 5 (September 2021): ii—iv. http://dx.doi.org/10.1016/s1931-7204(21)00210-5.

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47

"Table of Contents & Bacode." Journal of Surgical Education 79, no. 1 (January 2022): ii—iii. http://dx.doi.org/10.1016/s1931-7204(21)00356-1.

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48

"Table of Contents & Bacode." Journal of Surgical Education 78, no. 6 (November 2021): ii—v. http://dx.doi.org/10.1016/s1931-7204(21)00279-8.

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49

"Table of Contents & Bacode." Journal of Surgical Education 78, no. 4 (July 2021): ii—iv. http://dx.doi.org/10.1016/s1931-7204(21)00131-8.

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50

"Table of Contents & Bacode." Journal of Surgical Education 79, no. 2 (March 2022): ii—iii. http://dx.doi.org/10.1016/s1931-7204(22)00024-1.

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