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Nature Physics

Resumen/Descripción – provisto por la editorial en inglés
Nature Physics publishes papers of the highest quality and significance in all areas of physics, pure and applied. The journal content reflects core physics disciplines, but is also open to a broad range of topics whose central theme falls within the bounds of physics. Theoretical physics, particularly where it is pertinent to experiment, also features.
Palabras clave – provistas por la editorial

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Disponibilidad
Institución detectada Período Navegá Descargá Solicitá
No detectada desde jul. 2012 / hasta dic. 2023 Nature.com

Información

Tipo de recurso:

revistas

ISSN impreso

1745-2473

ISSN electrónico

1745-2481

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Cobertura temática

Tabla de contenidos

Publisher Correction: Truly chiral phonons in α-HgS

Kyosuke Ishito; Huiling MaoORCID; Yusuke KousakaORCID; Yoshihiko TogawaORCID; Satoshi IwasakiORCID; Tiantian ZhangORCID; Shuichi MurakamiORCID; Jun-ichiro KishineORCID; Takuya SatohORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Certification of a non-projective qudit measurement using multiport beamsplitters

Daniel MartínezORCID; Esteban S. GómezORCID; Jaime CariñeORCID; Luciano Pereira; Aldo Delgado; Stephen P. WalbornORCID; Armin TavakoliORCID; Gustavo Lima

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Bosonic stimulation of atom–light scattering in an ultracold gas

Yu-Kun LuORCID; Yair MargalitORCID; Wolfgang KetterleORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Observation of topological action potentials in engineered tissues

Hillel OriORCID; Marc DuqueORCID; Rebecca Frank Hayward; Colin ScheibnerORCID; He Tian; Gloria Ortiz; Vincenzo VitelliORCID; Adam E. CohenORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Ultrafast X-ray imaging of the light-induced phase transition in VO2

Allan S. JohnsonORCID; Daniel Perez-Salinas; Khalid M. Siddiqui; Sungwon Kim; Sungwook ChoiORCID; Klara Volckaert; Paulina E. MajchrzakORCID; Søren UlstrupORCID; Naman Agarwal; Kent Hallman; Richard F. HaglundORCID; Christian M. GüntherORCID; Bastian PfauORCID; Stefan Eisebitt; Dirk BackesORCID; Francesco Maccherozzi; Ann Fitzpatrick; Sarnjeet S. DhesiORCID; Pierluigi GargianiORCID; Manuel ValvidaresORCID; Nongnuch ArtrithORCID; Frank de Groot; Hyeongi Choi; Dogeun Jang; Abhishek Katoch; Soonnam Kwon; Sang Han Park; Hyunjung KimORCID; Simon E. WallORCID

<jats:title>Abstract</jats:title><jats:p>Using light to control transient phases in quantum materials is an emerging route to engineer new properties and functionality, with both thermal and non-thermal phases observed out of equilibrium. Transient phases are expected to be heterogeneous, either through photo-generated domain growth or by generating topological defects, and this impacts the dynamics of the system. However, this nanoscale heterogeneity has not been directly observed. Here we use time- and spectrally resolved coherent X-ray imaging to track the prototypical light-induced insulator-to-metal phase transition in vanadium dioxide on the nanoscale with femtosecond time resolution. We show that the early-time dynamics are independent of the initial spatial heterogeneity and observe a 200 fs switch to the metallic phase. A heterogeneous response emerges only after hundreds of picoseconds. Through spectroscopic imaging, we reveal that the transient metallic phase is a highly orthorhombically strained rutile metallic phase, an interpretation that is in contrast to those based on spatially averaged probes. Our results demonstrate the critical importance of spatially and spectrally resolved measurements for understanding and interpreting the transient phases of quantum materials.</jats:p>

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Topological defects with a half twist

Lisa TranORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Approaching optimal entangling collective measurements on quantum computing platforms

Lorcán O. ConlonORCID; Tobias VoglORCID; Christian D. MarciniakORCID; Ivan Pogorelov; Simon K. Yung; Falk Eilenberger; Dominic W. BerryORCID; Fabiana S. SantanaORCID; Rainer Blatt; Thomas MonzORCID; Ping Koy LamORCID; Syed M. Assad

<jats:title>Abstract</jats:title><jats:p>Entanglement is a fundamental feature of quantum mechanics and holds great promise for enhancing metrology and communications. Much of the focus of quantum metrology so far has been on generating highly entangled quantum states that offer better sensitivity, per resource, than what can be achieved classically. However, to reach the ultimate limits in multi-parameter quantum metrology and quantum information processing tasks, collective measurements, which generate entanglement between multiple copies of the quantum state, are necessary. Here, we experimentally demonstrate theoretically optimal single- and two-copy collective measurements for simultaneously estimating two non-commuting qubit rotations. This allows us to implement quantum-enhanced sensing, for which the metrological gain persists for high levels of decoherence, and to draw fundamental insights about the interpretation of the uncertainty principle. We implement our optimal measurements on superconducting, trapped-ion and photonic systems, providing an indication of how future quantum-enhanced sensing networks may look.</jats:p>

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Quantized fractional Thouless pumping of solitons

Marius JürgensenORCID; Sebabrata MukherjeeORCID; Christina JörgORCID; Mikael C. RechtsmanORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Critical prethermal discrete time crystal created by two-frequency driving

William Beatrez; Christoph Fleckenstein; Arjun PillaiORCID; Erica de Leon Sanchez; Amala Akkiraju; Jesus Diaz Alcala; Sophie Conti; Paul Reshetikhin; Emanuel Druga; Marin Bukov; Ashok AjoyORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible

Power to the particles

Giovanni LapentaORCID

Palabras clave: General Physics and Astronomy.

Pp. No disponible