关于新型自发坍塌模型的建议

IF 1.2 3区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY Foundations of Physics Pub Date : 2023-12-05 DOI:10.1007/s10701-023-00739-1
Nicolò Piccione
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引用次数: 0

摘要

自发坍缩模型是对标准量子力学的修正,其中一种物理机制负责波函数的坍缩,从而提供了一种解决所谓 "测量问题 "的方法。其中最有名的两个模型是吉拉尔迪-里米尼-韦伯(GRW)模型和连续自发定位(CSL)模型。在此,我们基于坍缩点位于固定时空坐标的思想,提出了一种新的非相对论自发坍缩模型。该模型与 GRW 和 CSL 模型具有相同的属性,但出发点不同。我们证明,它可以产生与 GRW 模型十分相似的动力学,同时也自然地解决了粒子不可分辨的问题。另一方面,我们也可以得到与 CSL 模型相同的主方程。然后,我们将展示我们提出的模型是如何以与 GRW 模型概念相似的方式解决测量问题的。最后,我们展示了所提出的模型如何通过把坍缩视为引力源来适应牛顿引力。
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A Proposal for a New Kind of Spontaneous Collapse Model

Spontaneous collapse models are modifications of standard quantum mechanics in which a physical mechanism is responsible for the collapse of the wavefunction, thus providing a way to solve the so-called “measurement problem”. The two most famous of these models are the Ghirardi–Rimini–Weber (GRW) model and the Continuous Spontaneous Localisation (CSL) models. Here, we propose a new kind of non-relativistic spontaneous collapse model based on the idea of collapse points situated at fixed spacetime coordinates. This model shares properties of both GRW and CSL models, while starting from different assumptions. We show that it can lead to a dynamics quite similar to that of the GRW model while also naturally solving the problem of indistinguishable particles. On the other hand, we can also obtain the same master equation of the CSL models. Then, we show how our proposed model solves the measurement problem in a manner conceptually similar to the GRW model. Finally, we show how the proposed model can also accommodate for Newtonian gravity by treating the collapses as gravitational sources.

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来源期刊
Foundations of Physics
Foundations of Physics 物理-物理:综合
CiteScore
2.70
自引率
6.70%
发文量
104
审稿时长
6-12 weeks
期刊介绍: The conceptual foundations of physics have been under constant revision from the outset, and remain so today. Discussion of foundational issues has always been a major source of progress in science, on a par with empirical knowledge and mathematics. Examples include the debates on the nature of space and time involving Newton and later Einstein; on the nature of heat and of energy; on irreversibility and probability due to Boltzmann; on the nature of matter and observation measurement during the early days of quantum theory; on the meaning of renormalisation, and many others. Today, insightful reflection on the conceptual structure utilised in our efforts to understand the physical world is of particular value, given the serious unsolved problems that are likely to demand, once again, modifications of the grammar of our scientific description of the physical world. The quantum properties of gravity, the nature of measurement in quantum mechanics, the primary source of irreversibility, the role of information in physics – all these are examples of questions about which science is still confused and whose solution may well demand more than skilled mathematics and new experiments. Foundations of Physics is a privileged forum for discussing such foundational issues, open to physicists, cosmologists, philosophers and mathematicians. It is devoted to the conceptual bases of the fundamental theories of physics and cosmology, to their logical, methodological, and philosophical premises. The journal welcomes papers on issues such as the foundations of special and general relativity, quantum theory, classical and quantum field theory, quantum gravity, unified theories, thermodynamics, statistical mechanics, cosmology, and similar.
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