Rotational effects on the Casimir energy in the space–time with one extra compactified dimension

Scalar bosons under the influence of noninertial effects in the cosmic string spacetime

(2017) L. C. N. Santos et al.   EUROPEAN PHYSICAL JOURNAL C

Casimir effect in the Kerr spacetime with quintessence

(2017) V. B. Bezerra et al.   MODERN PHYSICS LETTERS A

Extending the Higgs sector: an extra singlet

(2016) S I. Godunov et al.   EUROPEAN PHYSICAL JOURNAL C

Casimir effect in the Hořava–Lifshitz gravity with a cosmological constant

(2015) C.R. Muniz et al.   ANNALS OF PHYSICS

Production of $$\mathbf {\Sigma (1385)^{\pm }}$$ Σ ( 1385 ) ± and $$\mathbf {\Xi (1530)^{0}}$$ Ξ ( 1530 ) 0 in proton–proton collisions at $$\mathbf {\sqrt{s}=}$$ s = 7 TeV

(2015) B. Abelev et al.   EUROPEAN PHYSICAL JOURNAL C

Casimir dark energy, stabilization of the extra dimensions and Gauss–Bonnet term

(2015) Pitayuth Wongjun   EUROPEAN PHYSICAL JOURNAL C

Neutrino interaction with background matter in a non-inertial frame

(2015) Maxim Dvornikov   MODERN PHYSICS LETTERS A

Thermal Casimir effect in Kerr space–time

(2015) Anwei Zhang   NUCLEAR PHYSICS B

DKP equation in a rotating frame with magnetic cosmic string background

(2015) M. Hosseinpour et al.   European Physical Journal Plus

How does Casimir energy fall? IV. Gravitational interaction of regularized quantum vacuum energy

(2014) K. A. Milton et al.   PHYSICAL REVIEW D

Casimir energy in Kerr space-time

(2014) F. Sorge   PHYSICAL REVIEW D

Thermal Casimir effect in closed cosmological models with a cosmic string

(2014) V. B. Bezerra et al.   PHYSICAL REVIEW D

Noninertial effects on the ground state energy of a massive scalar field in the cosmic string spacetime

(2014) H. F. Mota et al.   PHYSICAL REVIEW D

Casimir effect due to a slowly rotating source in the weak-field approximation

(2014) V. B. Bezerra et al.   PHYSICAL REVIEW D

Rotating effects on the Dirac oscillator in the cosmic string spacetime

(2013) K. Bakke   GENERAL RELATIVITY AND GRAVITATION

Rotating Casimir systems: Magnetic-field-enhanced perpetual motion, possible realization in doped nanotubes, and laws of thermodynamics

(2013) M. N. Chernodub   PHYSICAL REVIEW D

Hořava-Lifshitz gravity effects on Casimir energy in weak field approximation and infrared regime

(2013) C. R. Muniz et al.   PHYSICAL REVIEW D

Spacetime rotation-induced Landau quantization

(2012) Kohkichi Konno et al.   PHYSICAL REVIEW D

Finite temperature Casimir effect of massive fermionic fields in the presence of compact dimensions

(2011) F.S. Khoo et al.   PHYSICS LETTERS B

Estimate for the size of the compactification radius of a one extra dimension universe

(2009) F. Pascoal et al.   BRAZILIAN JOURNAL OF PHYSICS

Fermionic Casimir effect for parallel plates in the presence of compact dimensions with applications to nanotubes

(2009) S. Bellucci et al.   PHYSICAL REVIEW D

Fermionic Casimir densities in toroidally compactified spacetimes with applications to nanotubes

(2009) S. Bellucci et al.   PHYSICAL REVIEW D

How does Casimir energy fall? III. Inertial forces on vacuum energy

(2008) K V Shajesh et al.   Journal of Physics A-Mathematical and Theoretical

Fermionic vacuum densities in higher-dimensional de Sitter spacetime

(2008) E. R. Bezerra de Mello et al.   JOURNAL OF HIGH ENERGY PHYSICS

Casimir effect in de Sitter space–time with compactified dimension

(2007) A.A. Saharian et al.   PHYSICS LETTERS B