Towards chemistry at absolute zero by Heazlewood, B, Softley, T

“…The prospect of cooling matter down to temperatures that are close to absolute zero raises intriguing questions about how chemical reactivity changes under these extreme conditions. …”

Biothermodynamics of Viruses from Absolute Zero (1950) to Virothermodynamics (2022) by Marko Popovic

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Discerning ‘Functional and Absolute Zero’: Defining and Measuring an End to Homelessness in Canada by Alina Turner, Tom Albanese, Kyle Pakeman

“…This is the difference between a Functional Zero end to homelessness and an Absolute Zero end to homelessness. To the public, the words “ending homelessness” likely bring to mind a vision of someday when no person will ever experience homelessness, which is the ideal Absolute Zero concept, that is arguably unlikely to fully achieve. …”
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Discerning ‘Functional and Absolute Zero’: Defining and Measuring an End to Homelessness in Canada by Alina Turner, Tom Albanese, Kyle Pakeman

“…This is the difference between a Functional Zero end to homelessness and an Absolute Zero end to homelessness. To the public, the words “ending homelessness” likely bring to mind a vision of someday when no person will ever experience homelessness, which is the ideal Absolute Zero concept, that is arguably unlikely to fully achieve. …”
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Effects of Some Thermo-Physical Parameters on Free Convective Heat and Mass Transfer over Vertical Stretching Surface at Absolute Zero by Koriko Olubode, Omowaye John, Animasaun Lare

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Stillness, Deep Time, & the Corpse: An Ode to Eros by Aaron M. Moe

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High Pressure Rheology of Lubricants (Part 7) by Masato Kaneko

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High Pressure Rheology of Lubricants (Part 5) by Masato Kaneko

“…It was found that the absolute zero viscosity (ηt=0) of ideal liquid is constant regardless of the pressure. …”
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'... a metal conducts and a non-metal doesn't'. by Edwards, P, Lodge, M, Hensel, F, Redmer, R

“…Here, we review the issues-theoretical and experimental-attendant on studies of the metal to non-metal transition in doped semiconductors at temperatures close to absolute zero (T=0.03 K) and fluid chemical elements at temperatures far above absolute zero (T>1000 K). …”

A New Approach to the Zero Subject in English by E. J. Ibragimova, T. V. Shulzhenko, A. А. Shumkov

“…The assumption is supported, that the implicit subject is a “trace” of the explicit subject and may not be considered as the absolute zero subject. It is the searched subject, which is an absolute zero subject, i.e. an inexplicit one and it is necessary to initiate specifying the notion of the zero subject with distinction of implicit and inexplicit subjects.Conclusion. …”
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(Net-) zero-emission buildings: a typology of terms and definitions by Thomas Lützkendorf, Rolf Frischknecht

“…The declaration of the approach chosen will provide clarity when discussing (net/absolute)-zero emission or climate-neutral buildings.   …”
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Giant flexoelectric polarization in a micromachined ferroelectric diaphragm by Zhu, Weiguang, Wang, Zhihong, Zhang, Xi Xiang, Wang, Xianbin, Yue, Weisheng, Li, Jingqi, Miao, Jianmin

“…The method allows determination of the absolute zero polarization state in a PZT film, which is impossible using other existing methods. …”
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On determining absolute entropy without quantum theory or the third law of thermodynamics by Andrew M Steane

“…It follows from all these examples that the value of entropy at absolute zero temperature does not need to be assigned by postulate, but can be deduced empirically.…”
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Witnessing macroscopic entanglement in a staggered magnetic field by Hide, J, Son, W, Lawrie, I, Vedral, V

“…Using single-site entropy and by constructing an entanglement witness, we search for the existence of entanglement when the system is at absolute zero, as well as in thermal equilibrium. Although the role of the alternating magnetic field b is, in general, to suppress entanglement as do B and T, we find that when T=0, introducing b allows the existence of entanglement even when the uniform magnetic field B is arbitrarily large. …”

Heat capacity as an indicator of entanglement by Wiesniak, M, Vedral, V, Brukner, C

“…The idea is that if the system was in a separable state, then for certain Hamiltonians heat capacity would not tend asymptotically to zero as the temperature approaches absolute zero. Since this would contradict the third law of thermodynamics, one concludes that the system must contain entanglement. …”

REACTION-RATES OF IONS WITH DIPOLAR MOLECULES IN 2-PI ELECTRONIC STATES by Wickham, A, Stoecklin, T, Clary, D

“…The most interesting new prediction is that the rate coefficient for the reaction of a 2Π polar molecule with an ion is proportional to T-1/2 for temperatures close to absolute zero. © 1992 American Institute of Physics.…”

Entanglement entropy as a portal to the physics of quantum spin liquids by Tarun Grover, Yi Zhang, Ashvin Vishwanath

“…Quantum spin liquids (QSLs) are phases of interacting spins that do not order even at the absolute zero temperature, making it impossible to characterize them by a local order parameter. …”
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Another operator-theoretical proof for the second-order phase transition in the BCS-Bogoliubov model of superconductivity by Shuji Watanabe

“…Abstract In the preceding papers, imposing certain complicated and strong conditions, the present author showed that the solution to the BCS-Bogoliubov gap equation in superconductivity is twice differentiable only on the neighborhoods of absolute zero temperature and the transition temperature so as to show that the phase transition is of the second order from the viewpoint of operator theory. …”
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Landauer Versus Nernst: What is the True Cost of Cooling a Quantum System? by Philip Taranto, Faraj Bakhshinezhad, Andreas Bluhm, Ralph Silva, Nicolai Friis, Maximilian P.E. Lock, Giuseppe Vitagliano, Felix C. Binder, Tiago Debarba, Emanuel Schwarzhans, Fabien Clivaz, Marcus Huber

“…This crucial role of control is exemplified by the third law of thermodynamics, Nernst’s unattainability principle, which states that infinite resources are required to cool a system to absolute zero temperature. But what are these resources and how should they be utilized? …”
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Quantum spin liquid candidate as superior refrigerant in cascade demagnetization cooling by Xin-Yang Liu, Yuan Gao, Han Li, Wentao Jin, Junsen Xiang, Hai Jin, Ziyu Chen, Wei Li, Gang Su

“…Quantum spin liquids are a series of materials which exhibit an absence of magnetic order down to absolute zero and may have applications for data storage and memory. …”
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