Archived weekly pre-prints 22-10-31

Sun - 10/30/22

Loop quantum gravity related papers

Barbero–Immirzi–Holst Lagrangian with Spacetime Barbero–Immirzi Connections

• Authors: Andrea Orizzonte
• Subjects: General Relativity and Quantum Cosmology (gr-qc); Mathematical Physics (math-ph); Differential Geometry (math.DG)
• Arxiv link: https://arxiv.org/abs/2210.15367
• Abstract We carry out the complete variational analysis of the Barbero–Immirzi–Holst Lagrangian, which is the Holst Lagrangian expressed in terms of the triad of fields $(\theta, A, \kappa)$, where $\theta$ is the solder form/spin frame, $A$ is the spacetime Barbero–Immirzi connection, and $\kappa$ is the extrinsic spacetime field. The Holst Lagrangian depends on the choice of a real, non zero Holst parameter $\gamma \neq 0$ and constitutes the classical field theory which is then quantized in Loop Quantum Gravity. The choice of a real Immirzi parameter $\beta$ sets up a one-to-one correspondence between pairs $(A, \kappa)$ and spin connections $\omega$ on spacetime. The variation of the Barbero–Immirzi–Holst Lagrangian is computed for an arbitrary pair of parameters $(\beta, \gamma)$. We develop and use the calculus of vector-valued differential forms to improve on the results already present in literature by better clarifying the geometric character of the resulting Euler–Lagrange equations. The main result is that the equations for $\theta$ are equivalent to the vacuum Einstein Field Equations, while the equations for $A$ and $\kappa$ give the same constraint equation for any $\beta \in \mathbb{R}$, namely that $A + \kappa$ must be the Levi–Civita connection induced by $\theta$. We also prove that these results are valid for any value of $\gamma \neq 0$, meaning that the choice of parameters $(\beta, \gamma)$ has no impact on the classical theory in a vacuum and, in particular, there is no need to set $\beta = \gamma$.

Spin foam related papers

There is no new related paper today

Other related papers

1. [2210.14973] - Bosonic und Fermionic Quasinormal Modes of Rotating Black Holes Through AdS/CFT - Jayant Rao, Shubhanshu Tiwari

2. [2210.15006] - Reflected entropy in random tensor networks II: a topological index from the canonical purification - Chris Akers, Thomas Faulkner, Simon Lin, Pratik Rath

Sat - 10/29/22

Loop quantum gravity related papers

Barbero–Immirzi–Holst Lagrangian with Spacetime Barbero–Immirzi Connections

• Authors: Andrea Orizzonte
• Subjects: General Relativity and Quantum Cosmology (gr-qc); Mathematical Physics (math-ph); Differential Geometry (math.DG)
• Arxiv link: https://arxiv.org/abs/2210.15367
• Abstract We carry out the complete variational analysis of the Barbero–Immirzi–Holst Lagrangian, which is the Holst Lagrangian expressed in terms of the triad of fields $(\theta, A, \kappa)$, where $\theta$ is the solder form/spin frame, $A$ is the spacetime Barbero–Immirzi connection, and $\kappa$ is the extrinsic spacetime field. The Holst Lagrangian depends on the choice of a real, non zero Holst parameter $\gamma \neq 0$ and constitutes the classical field theory which is then quantized in Loop Quantum Gravity. The choice of a real Immirzi parameter $\beta$ sets up a one-to-one correspondence between pairs $(A, \kappa)$ and spin connections $\omega$ on spacetime. The variation of the Barbero–Immirzi–Holst Lagrangian is computed for an arbitrary pair of parameters $(\beta, \gamma)$. We develop and use the calculus of vector-valued differential forms to improve on the results already present in literature by better clarifying the geometric character of the resulting Euler–Lagrange equations. The main result is that the equations for $\theta$ are equivalent to the vacuum Einstein Field Equations, while the equations for $A$ and $\kappa$ give the same constraint equation for any $\beta \in \mathbb{R}$, namely that $A + \kappa$ must be the Levi–Civita connection induced by $\theta$. We also prove that these results are valid for any value of $\gamma \neq 0$, meaning that the choice of parameters $(\beta, \gamma)$ has no impact on the classical theory in a vacuum and, in particular, there is no need to set $\beta = \gamma$.

Spin foam related papers

There is no new related paper today

Other related papers

1. [2210.14973] - Bosonic und Fermionic Quasinormal Modes of Rotating Black Holes Through AdS/CFT - Jayant Rao, Shubhanshu Tiwari

2. [2210.15006] - Reflected entropy in random tensor networks II: a topological index from the canonical purification - Chris Akers, Thomas Faulkner, Simon Lin, Pratik Rath

Fri - 10/28/22

Loop quantum gravity related papers

Barbero–Immirzi–Holst Lagrangian with Spacetime Barbero–Immirzi Connections

• Authors: Andrea Orizzonte
• Subjects: General Relativity and Quantum Cosmology (gr-qc); Mathematical Physics (math-ph); Differential Geometry (math.DG)
• Arxiv link: https://arxiv.org/abs/2210.15367
• Abstract We carry out the complete variational analysis of the Barbero–Immirzi–Holst Lagrangian, which is the Holst Lagrangian expressed in terms of the triad of fields $(\theta, A, \kappa)$, where $\theta$ is the solder form/spin frame, $A$ is the spacetime Barbero–Immirzi connection, and $\kappa$ is the extrinsic spacetime field. The Holst Lagrangian depends on the choice of a real, non zero Holst parameter $\gamma \neq 0$ and constitutes the classical field theory which is then quantized in Loop Quantum Gravity. The choice of a real Immirzi parameter $\beta$ sets up a one-to-one correspondence between pairs $(A, \kappa)$ and spin connections $\omega$ on spacetime. The variation of the Barbero–Immirzi–Holst Lagrangian is computed for an arbitrary pair of parameters $(\beta, \gamma)$. We develop and use the calculus of vector-valued differential forms to improve on the results already present in literature by better clarifying the geometric character of the resulting Euler–Lagrange equations. The main result is that the equations for $\theta$ are equivalent to the vacuum Einstein Field Equations, while the equations for $A$ and $\kappa$ give the same constraint equation for any $\beta \in \mathbb{R}$, namely that $A + \kappa$ must be the Levi–Civita connection induced by $\theta$. We also prove that these results are valid for any value of $\gamma \neq 0$, meaning that the choice of parameters $(\beta, \gamma)$ has no impact on the classical theory in a vacuum and, in particular, there is no need to set $\beta = \gamma$.

Spin foam related papers

There is no new related paper today

Other related papers

1. [2210.14973] - Bosonic und Fermionic Quasinormal Modes of Rotating Black Holes Through AdS/CFT - Jayant Rao, Shubhanshu Tiwari

2. [2210.15006] - Reflected entropy in random tensor networks II: a topological index from the canonical purification - Chris Akers, Thomas Faulkner, Simon Lin, Pratik Rath

Thu - 10/27/22

Loop quantum gravity related papers

There is no new related paper today

Spin foam related papers

There is no new related paper today

Wed - 10/26/22

Loop quantum gravity related papers

There is no new related paper today

Spin foam related papers

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1. [2210.14062] - Scalar Perturbation Around Rotating Regular Black Hole: Superradiance Instability and Quasinormal Modes - Zhen Li

2. [2210.13857] - Effects of hyperscaling violation and dynamical exponents on drag force - M. Kioumarsipour, J. Sadeghi

3. [2210.13910] - Perturbative approaches to non-perturbative quantum gravity - Riccardo Martini, Gian Paolo Vacca, Omar Zanusso

4. [2210.13911] - Effects of hyperscaling violation and dynamical exponents on heavy quark potential and jet quenching parameter - M. Kioumarsipour, J. Sadeghi

5. [2210.14196] - A proposal for 3d quantum gravity and its bulk factorization - Thomas G. Mertens, Joan Simón, Gabriel Wong

6. [2210.13926] - Einstein Algebras in a Categorical Context - Leszek Pysiak, Wiesław Sasin, Michael Heller, Tomasz Miller

Tue - 10/25/22

Loop quantum gravity related papers

There is no new related paper today

Spin foam related papers

There is no new related paper today

Other related papers

1. [2210.12641] - Quasinormal ringing and echoes of black bounces in a cloud of strings - Yi Yang, Dong Liu, Zhaoyi Xu, Zheng-Wen Long

2. [2210.12319] - The background information about perturbative quantum gravity - Ilya L. Shapiro

3. [2210.12967] - Fractional topological charge in lattice Abelian gauge theory - Motokazu Abe, Yuki Miyakawa, Okuto Morikawa, Hiroshi Suzuki

Mon - 10/24/22

Loop quantum gravity related papers

There is no new related paper today

Spin foam related papers

There is no new related paper today

Other related papers

1. [2210.11565] - A convergent genus expansion for the plateau - Phil Saad, Douglas Stanford, Zhenbin Yang, Shunyu Yao

2. [2210.12127] - Exact Holographic Tensor Networks – Constructing CFT$_D$ from TQFT$_{D+1}$ - Lin Chen, Hao-Chen Zhang, Kai-Xin Ji, Ce Shen, Ruo-shui Wang, Xiang-dong Zeng, Ling-Yan Hung

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