Quantum Phase Transitions

Haravifard, Sara; Yamani, Z.; Gaulin, B. D.

doi:10.1016/b978-0-12-802049-4.00002-6

Cited by 3 publications

(3 citation statements)

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“…Quantum theory is currently the best experimentally tested in the field of physics. The main insights and research in quantum theory are reflected in the work of scientists from different countries (Auzinsh et al, 2010;Fischer, Anders, & Saalfrank, 2022;Haravifard, Yamani, & Gaulin, 2015;Lai, 2006;Haller, Xu, Liu, & Pollmann, 2023;Serwatka, Melko, Burkov, & Roy, 2023). The quantum transition manifests at all levels (Earth, individual).…”

Section: Philosophically Methodological Basis Of Research: Literature...mentioning

confidence: 99%

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Self-Assessment of Prospective Engineers’ Career Management in the Context of Quantum Transition Theory in Social Sciences

Baltusite,

Katane

2024

EID

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We live in a changing and complex world open for potential personal development. At the same time, the Earth is moving to a new level, from a 3-dimensional to a 5-dimensional level. This process is called the quantum transition. Nowadays career management theories are developing and changing under the influence of the quantum transition paradigm, thus the perception of career and the understanding of career have also changed. A career covers the whole life of a person and is individually driven. So, we can speak of a self-directed personal career, which is connected with finding one’s mission in life, one’s vocation. So, moving into the fourth and fifth dimensions opens up more possibilities for finding your purpose: 1) motivated individual choice; 2) career management based on that choice; 3) transition from survival to mission; 4) access to the information field of the Universe; 5) discovery of new abilities – telekinesis, teleportation, clairvoyance, clairaudience, etc. The article considers the notion of the quantum transition, career, career management and the characteristics of the Generation Z from the perspective of various authors. The analysis is carried out by assessing the data acquired on the specific features of the existent career management and the possibilities which provides the current situation for the engineers-to-be. The research aim is to study the specific features of the career management of the prospective engineers in the perspective of the quantum transition. The obtained high-level results testify that engineering students have sufficient employability potential, which largely indicates their competitiveness. The obtained low-level results indicate that the students are not yet ready to lifelong learn and develop professionally throughout his life, is not ready for changes in his chosen career, which indicates a certain inflexibility in thinking and acting. It is precisely these qualities that are very necessary in self-management of a sustainable career. This means that career support services should continue to be offered to promote career self-development and self-management under changing conditions (closely related to quantum transition theory). During the formative (pedagogical) experiment, significant and very significant changes occurred in students' self-assessments according to the following criteria: students' internal and external resources, competitiveness in the chosen profession (p value = 0.005 ... 0.018). This means that during the survey, the self-assessment of internal resources according to these indicators was influenced by the information obtained during the survey from the content of the questionnaire, which allowed for a more adequate self-assessment at the end of the experiment.

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Section: Philosophically Methodological Basis Of Research: Literature...mentioning

confidence: 99%

“…The term quantum jump was originally used after being introduced by N. Bohr (Haravifard, Yamani, & Gaulin, 2015), but nowadays the concept used is 'the quantum transition phase'. Because it is believed that it is no longer possible to rationally grasp it within the framework of physical theory.…”

Section: Introductionmentioning

confidence: 99%

Self-Assessment of Prospective Engineers’ Career Management in the Context of Quantum Transition Theory in Social Sciences

Baltusite,

Katane

2024

EID

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“…Strong quantum fluctuations give birth to novel ground states and low-lying energy excitation, so called quantum critical phenomena realized near a quantum critical point (QCP) or in quantum spin liquids [1][2][3][4][5][6]. Strong spin fluctuations near a QCP are regarded as a key to clarify the unconventional superconducting (SC) pairing mechanism [7,8].…”

Section: Introductionmentioning

confidence: 99%

Disordered quantum spin state in the stripe lattice system consisting of triangular and square tilings

Saito,

Nakamura,

Sawada

et al. 2019

Preprint

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Quantum fluctuations originating phase competition or geometrical frustration of spins lead to novel states such as a quantum critical point and a quantum spin liquid where the strong quantum fluctuations suppress any ordered states even at 0 K. Utilizing site-selective NMR for a quasi-two dimensional organic conductor λ-(STF)2GaCl4, we investigate the non-magnetic insulating phase of the stripe lattice system consisting of triangular and square tilings. We found development of AF spin fluctuations with decreasing temperature. Regardless of large enhancement of spin-lattice relaxation rate 1/T1 owing to critical slowing down below 10 K, no long-range magnetic ordering was observed down to 1.63 K two orders of magnitude less than the exchange interaction J/kB 194 K. Moreover, 1/T1 saturated below 3.5 K. These results are in stark contrast to observed behaviors so far in other non-magnetic ground states discussed in terms of spin liquids, demonstrating realization of an exotic quantum state accompanying quantum criticality.

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Unveiling non-classical correlations, quantum coherence, and steering measurement uncertainty in two-qubit $$XY-\Gamma$$ spin model

Ait Chlih,

Elghaayda,

Habiballah

et al. 2024

Opt Quant Electron

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Quantum Phase Transitions

Cited by 3 publications

References 150 publications

Self-Assessment of Prospective Engineers’ Career Management in the Context of Quantum Transition Theory in Social Sciences

Self-Assessment of Prospective Engineers’ Career Management in the Context of Quantum Transition Theory in Social Sciences

Disordered quantum spin state in the stripe lattice system consisting of triangular and square tilings

Unveiling non-classical correlations, quantum coherence, and steering measurement uncertainty in two-qubit $$XY-\Gamma$$ spin model

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