Persistence of the topological surface states in Bi2Se3 against Ag intercalation at room temperature

Persistence of the topological surface states in Bi2Se3 against Ag intercalation at room temperature

The electronic and atomic structures of topological insulator Bi2Se3, upon Ag atom deposition, have been investigated by combined experimental methods of scanning tunneling microscopy (STM), photoelectron spectroscopy, and first-principles calculations. We show from the results of STM that the depos...

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Bibliographic Details
Published in:The Journal of Physical Chemistry C Vol. 125, № 3. P. 1784-1792
Other Authors: Ye, Mao, Kuroda, Kenta, Otrokov, Mikhail M., Ryabishchenkova, Anastasiya G., Jiang, Qi, Ernst, Arthur, Chulkov, Evgueni V., Nakatake, Masashi, Arita, Masashi, Okuda, Taichi, Matsushita, Tomohiro, Tóth, László, Daimon, Hiroshi, Shimada, Kenya, Ueda, Yoshifumi, Kimura, Akio
Format: Article
Language:English
Subjects:
топологические изоляторы
интеркаляция
топологически нетривиальные поверхностные состояния
статьи в журналах
Online Access:http://vital.lib.tsu.ru/vital/access/manager/Repository/koha:000892532
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245 1 0 |a Persistence of the topological surface states in Bi2Se3 against Ag intercalation at room temperature  |c Mao Ye, K. Kuroda, M. M. Otrokov [et al.] 
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504 |a Библиогр.: 40 назв. 
520 3 |a The electronic and atomic structures of topological insulator Bi2Se3, upon Ag atom deposition, have been investigated by combined experimental methods of scanning tunneling microscopy (STM), photoelectron spectroscopy, and first-principles calculations. We show from the results of STM that the deposited Ag atoms are stabilized beneath the surface instead of being adsorbed on the topmost surface. We further reveal from the angle-resolved photoemission spectroscopy that the Bi2Se3(0001) topological surface states stay uninterrupted after a large amount of absorption of Ag atoms. Our analysis of the photoelectron intensity of Ag core states excited by soft X-ray suggests that a large amount of deposited Ag atoms diffused into a deeper place, which is beyond the probing depth of X-ray photoelectron spectroscopy. The first-principles calculations identify the octahedral site in the van der Waals gaps between quintuple layers to be the most favorable locations of Ag atoms beneath the surface, which yields good agreement between the simulated and experimental STM images. These findings pave an efficient way to tailor the local lattice structures of topological insulators without disturbing the topologically nontrivial surface states. 
653 |a топологические изоляторы 
653 |a интеркаляция 
653 |a топологически нетривиальные поверхностные состояния 
655 4 |a статьи в журналах  |9 879358 
700 1 |a Ye, Mao  |9 217301 
700 1 |a Kuroda, Kenta  |9 217305 
700 1 |a Otrokov, Mikhail M.  |9 99558 
700 1 |a Ryabishchenkova, Anastasiya G.  |9 101563 
700 1 |a Jiang, Qi  |9 802132 
700 1 |a Ernst, Arthur  |9 148312 
700 1 |a Chulkov, Evgueni V.  |9 89119 
700 1 |a Nakatake, Masashi  |9 301998 
700 1 |a Arita, Masashi  |9 217306 
700 1 |a Okuda, Taichi  |9 217311 
700 1 |a Matsushita, Tomohiro  |9 802129 
700 1 |a Tóth, László  |9 802130 
700 1 |a Daimon, Hiroshi  |9 802131 
700 1 |a Shimada, Kenya  |9 239236 
700 1 |a Ueda, Yoshifumi  |9 386045 
700 1 |a Kimura, Akio  |9 217308 
773 0 |t The Journal of Physical Chemistry C  |d 2021  |g Vol. 125, № 3. P. 1784-1792  |x 1932-7447 
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