## Research

** A. Galiautdinov**, "Ground state of an exciton in a three-dimensional parabolic quantum dot: convergent perturbative calculation" [https://arxiv.org/abs/1710.04933 (2017)], revised published version: Phys. Lett. A

**382**, 72 (2018).

and L. H. Ryder, "Neutron interference in the Earth's gravitational field" [Gen. Relativ. Gravit.**A. Galiautdinov****49**, 82 (2017)]**A. Galiautdinov**and D. Finkelstein, "High-energy cosmic ray production by a neutron star falling into a black hole" (*version dated June 18, 2014*) [https://arxiv.org/abs/1702.01457 (2017)]**A. Galiautdinov**, "Derivation of the Lorentz transformation without the use of Einstein's second postulate" (*popular physics*) [https://arxiv.org/abs/1701.00270 (2017)]**A. Galiautdinov**and S. M. Kopeikin, "Post-Newtonian celestial mechanics in scalar-tensor cosmology" [Phys. Rev. D**94**, 044015 (2016)]; supplemental materials ("Derivation of the wave equations for perturbations")- M. R. Geller, J. M. Martinis, A. T. Sornborger, P. C. Stancil, E. J. Pritchett, H. You, and
**A. Galiautdinov**, "Universal quantum simulation with prethreshold superconducting qubits: Single-excitation subspace method" [Phys. Rev. A**91**, 062309 (2015)] - J. Ghosh,
**A. Galiautdinov**, Zh. Zhou, A. N. Korotkov, J. M. Martinis, and M. R. Geller, "High-fidelity controlled-Z gate for resonator-based superconducting quantum computers" [Phys. Rev. A**87**, 022309 (2013)] - E. A. Sete,
**A. Galiautdinov**, E. Mlinar, J. M. Martinis, and A. N. Korotkov, "Catch-Disperse-Release Readout for Superconducting Qubits", supplemental material [PRL**110**, 210501 (2013)] **A. Galiautdinov**, "Simple protocol for generating W states in resonator-based quantum computing architectures" [arXiv:1203.5534 [quant-ph] (2012)]**A. Galiautdinov**, A. N. Korotkov, and J. M. Martinis, "Resonator–zero-qubit architecture for superconducting qubits" [Phys. Rev. A**85**, 042321 (2012) ]**A. Galiautdinov**, "Single-step implementation of the controlled-Z gate in a qubit/bus/qubit device" [arXiv:1103.4641 [quant-ph] (2011)]**A. Galiautdinov**, M. W. Coffey, and R. Deiotte, “Greenberger-Horne-Zeilinger state protocols for fully connected qubit networks” [Phys. Rev. A**80**, 062302 (2009)]- M. Geller, E. Pritchett,
**A. Galiautdinov**, and J. Martinis, "Quantum logic with weakly coupled qubits" http://pra.aps.org/abstract/PRA/v**81**/i1/e012320; [http://arxiv.org/abs/0906.5209 (2009)] **A. Galiautdinov**, “Controlled-NOT logic with nonresonant Josephson phase qubits” [Phys. Rev. A**79**, 042316 (2009)]- M. R. Geller, E. J. Pritchett,
**A. Galiautdinov**, and J. M. Martinis, "Quantum gate design: A perspective" [Phys. Status Solidi B (2009)] **A. Galiautdinov**and J. M. Martinis, “Maximally entangling tripartite protocols for Josephson phase qubits”, [Phys. Rev. A**78**, 010305(R) (2008)]**A. Galiautdinov**, “Single-step controlled-NOT logic from any exchange interaction”, [J. Math. Phys.**48**, 112105 (2007)]**A. Galiautdinov**, “Generation of high-ﬁdelity controlled-NOT logic gates by coupled superconducting qubits”, [Phys. Rev. A**75**, 052303 (2007)]**A. Galiautdinov**, “Tunneling out of metastable vacuum in a system consisting of two capacitively coupled phase qubits”, [Phys. Rev. B**73**, 064509 (2006)]- J. Baugh, D. R. Finkelstein,
**A. Galiautdinov**, M. Shiri-Garakani, Transquantum Dynamics, Found. Phys.**33**, 1267 (2003) **A. Galiautdinov**and D. R. Finkelstein, "Chronon corrections to the Dirac equation", [J. Math. Phys.**43**, 4741(2002)]- D. R. Finkelstein and
**A. Galiautdinov**, “Cliﬀordons”, [J. Math. Phys.**42**,3299(2001)] - J. Baugh, D. R. Finkelstein,
**A. Galiautdinov**, H. Saller, “Cliﬀord algebra as quantum language”, [J. Math. Phys.**42**, 1489 (2001)] - D. R. Finkelstein,
**A. Galiautdinov**, J. E. Baugh, “Unimodular relativity and cosmological constant”, [J. Math. Phys.**42**, 340(2001)]

**PhD THESIS:**

**A. Galiautdinov**, Quantum theory of elementary processes, Int. J. Theor. Phys. **41**, 1423 (2002)

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