Depletion of two-level systems in highly stable glasses with different molecular ordering

Manuel Moratalla Martín; Marta Rodríguez López; Cristian Rodríguez Tinoco; Javier Rodríguez-Viejo; Rafael J. Jiménez Riobóo; Miguel Ángel Ramos

doi:10.1038/s42005-023-01398-4

Depletion of two-level systems in highly stable glasses with different molecular ordering

Manuel Moratalla Martín, Marta Rodríguez López, Cristian Rodríguez Tinoco, Javier Rodríguez-Viejo, Rafael J. Jiménez Riobóo, Miguel Ángel Ramos

Producción científica: Contribución a una revista › Artículo › Investigación › revisión exhaustiva

4 Citas (Scopus)

Resumen

Recent findings of structural glasses with extremely high kinetic and thermodynamic stability have attracted much attention. The question has been raised as to whether the well-known, low-temperature "glassy anomalies" (attributed to the presence of two-level systems [TLS] and the "boson peak") persist or not in these ultrastable glasses of much lower configurational entropy. To resolve previous contradictory results, we study a particular type of ultrastable glass, TPD, which can be prepared by physical vapor deposition in a highly-stable state with different degrees of layering and molecular orientation, and also as a conventional glass and in crystalline state. After a thorough characterization of the different samples prepared, we have measured their specific heat down to 0.4 K. Whereas the conventional glass exhibits the typical glassy behaviour and the crystal the expected Debye cubic dependence at very low temperatures, a strong depletion of the TLS contribution is found in both kinds of ultrastable glass, regardless of their layering and molecular ordering.

Idioma original	Inglés
Publicación	Communications Physics
Volumen	6
DOI	https://doi.org/10.1038/s42005-023-01398-4
Estado	Publicada - 2023

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10.1038/s42005-023-01398-4

https://ddd.uab.cat/record/287077

NUEVAS ESTRATEGIAS DE OPTIMIZACION TERMOELECTRICA
Rodriguez Viejo, J. (Principal Investigator), Boarino, L. (Colaborador/a), Colombo, L. (Colaborador/a), RODA SALICHS, E. (Colaborador/a), Rodríguez Lopez, M. (Colaborador/a), Vila Costa, A. (Colaborador/a), Garcia Alonso, G. (Investigador/a), Gonzalez Silveira, M. (Investigador/a), López Martínez, A. M. (Investigador/a), Lopeandia Fernandez, A. (Investigador/a), Pi Vila, F. (Investigador/a), Rodriguez Tinoco, C. (Investigador/a) & Miguez Gonzalez, S. (Colaborador/a)
1/09/21 → 28/02/25
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@article{b9c9952956a74132a107da47a448e9bd,

title = "Depletion of two-level systems in highly stable glasses with different molecular ordering",

abstract = "Recent findings of structural glasses with extremely high kinetic and thermodynamic stability have attracted much attention. The question has been raised as to whether the well-known, low-temperature {"}glassy anomalies{"} (attributed to the presence of two-level systems [TLS] and the {"}boson peak{"}) persist or not in these ultrastable glasses of much lower configurational entropy. To resolve previous contradictory results, we study a particular type of ultrastable glass, TPD, which can be prepared by physical vapor deposition in a highly-stable state with different degrees of layering and molecular orientation, and also as a conventional glass and in crystalline state. After a thorough characterization of the different samples prepared, we have measured their specific heat down to 0.4 K. Whereas the conventional glass exhibits the typical glassy behaviour and the crystal the expected Debye cubic dependence at very low temperatures, a strong depletion of the TLS contribution is found in both kinds of ultrastable glass, regardless of their layering and molecular ordering.",

keywords = "Boson peaks, Configurational entropy, Highly stables, Kinetics and thermodynamics, Lows-temperatures, Molecular ordering, Physical vapour deposition, Stable state, Structural glass, Two-level system",

author = "{Moratalla Mart{\'i}n}, Manuel and {Rodr{\'i}guez L{\'o}pez}, Marta and {Rodr{\'i}guez Tinoco}, Cristian and Javier Rodr{\'i}guez-Viejo and {Jim{\'e}nez Riob{\'o}o}, {Rafael J.} and Ramos, {Miguel {\'A}ngel}",

year = "2023",

doi = "10.1038/s42005-023-01398-4",

language = "English",

volume = "6",

journal = "Communications Physics",

issn = "2399-3650",

publisher = "Springer Nature",

}

TY - JOUR

T1 - Depletion of two-level systems in highly stable glasses with different molecular ordering

AU - Moratalla Martín, Manuel

AU - Rodríguez López, Marta

AU - Rodríguez Tinoco, Cristian

AU - Rodríguez-Viejo, Javier

AU - Jiménez Riobóo, Rafael J.

AU - Ramos, Miguel Ángel

PY - 2023

Y1 - 2023

N2 - Recent findings of structural glasses with extremely high kinetic and thermodynamic stability have attracted much attention. The question has been raised as to whether the well-known, low-temperature "glassy anomalies" (attributed to the presence of two-level systems [TLS] and the "boson peak") persist or not in these ultrastable glasses of much lower configurational entropy. To resolve previous contradictory results, we study a particular type of ultrastable glass, TPD, which can be prepared by physical vapor deposition in a highly-stable state with different degrees of layering and molecular orientation, and also as a conventional glass and in crystalline state. After a thorough characterization of the different samples prepared, we have measured their specific heat down to 0.4 K. Whereas the conventional glass exhibits the typical glassy behaviour and the crystal the expected Debye cubic dependence at very low temperatures, a strong depletion of the TLS contribution is found in both kinds of ultrastable glass, regardless of their layering and molecular ordering.

AB - Recent findings of structural glasses with extremely high kinetic and thermodynamic stability have attracted much attention. The question has been raised as to whether the well-known, low-temperature "glassy anomalies" (attributed to the presence of two-level systems [TLS] and the "boson peak") persist or not in these ultrastable glasses of much lower configurational entropy. To resolve previous contradictory results, we study a particular type of ultrastable glass, TPD, which can be prepared by physical vapor deposition in a highly-stable state with different degrees of layering and molecular orientation, and also as a conventional glass and in crystalline state. After a thorough characterization of the different samples prepared, we have measured their specific heat down to 0.4 K. Whereas the conventional glass exhibits the typical glassy behaviour and the crystal the expected Debye cubic dependence at very low temperatures, a strong depletion of the TLS contribution is found in both kinds of ultrastable glass, regardless of their layering and molecular ordering.

KW - Boson peaks

KW - Configurational entropy

KW - Highly stables

KW - Kinetics and thermodynamics

KW - Lows-temperatures

KW - Molecular ordering

KW - Physical vapour deposition

KW - Stable state

KW - Structural glass

KW - Two-level system

U2 - 10.1038/s42005-023-01398-4

DO - 10.1038/s42005-023-01398-4

M3 - Article

SN - 2399-3650

VL - 6

JO - Communications Physics

JF - Communications Physics

ER -

Depletion of two-level systems in highly stable glasses with different molecular ordering

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