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Controlling the effective Hamiltonia...

Venkatraman, Jayameenakshi.

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Controlling the effective Hamiltonian of a driven quantum superconducting circuit

Record Type:	Electronic resources : Monograph/item
Title/Author:	Controlling the effective Hamiltonian of a driven quantum superconducting circuit/ by Jayameenakshi Venkatraman.
Author:	Venkatraman, Jayameenakshi.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xvii, 129 p. :ill. (some col.), digital ;24 cm.
Notes:	"Doctoral thesis accepted by Yale University, USA."
[NT 15003449]:	Chapter 1: Preamble -- Chapter 2: The squeeze-driven Kerr oscillator (SKO) implemented in a driven superconducting circuit -- Chapter 3: Representations and properties of the SKO -- Chapter 4: Experimental setup -- Chapter 5: Quantum tunneling observations in the ground state manifold of the SKO -- Chapter 6: Excited state manifold: spectral kissing, multilevel degeneracies, and their fingerprint on the qubit lifetime -- Chapter 7: A decoherence model for the SKO: an RWA model and treating effects beyond the RWA -- Chapter 8: Conclusions and future directions.
Contained By:	Springer Nature eBook
Subject:	Hamiltonian operator. -
Online resource:	https://doi.org/10.1007/978-3-031-83270-3
ISBN:	9783031832703

Controlling the effective Hamiltonian of a driven quantum superconducting circuit
Venkatraman, Jayameenakshi.

Controlling the effective Hamiltonian of a driven quantum superconducting circuit[electronic resource] /by Jayameenakshi Venkatraman. - Cham :Springer Nature Switzerland :2025. - xvii, 129 p. :ill. (some col.), digital ;24 cm. - Springer theses,2190-5061. - Springer theses..

"Doctoral thesis accepted by Yale University, USA."

Chapter 1: Preamble -- Chapter 2: The squeeze-driven Kerr oscillator (SKO) implemented in a driven superconducting circuit -- Chapter 3: Representations and properties of the SKO -- Chapter 4: Experimental setup -- Chapter 5: Quantum tunneling observations in the ground state manifold of the SKO -- Chapter 6: Excited state manifold: spectral kissing, multilevel degeneracies, and their fingerprint on the qubit lifetime -- Chapter 7: A decoherence model for the SKO: an RWA model and treating effects beyond the RWA -- Chapter 8: Conclusions and future directions.

The thesis illustrates, with a remarkable combination of theoretical analysis and experimental investigation, how the static Hamiltonian of an oscillator with both 3rd and 4th order non-linearity can morph into a profoundly different Hamiltonian under the influence of an oscillating driving force. In a classical system, such transformation would not be considered a novelty, but the author demonstrates that the new Hamiltonian can possess an exotic symmetry with surprising new quantum properties that one would never anticipate from the original Hamiltonian, with no classical equivalent. The root cause of these unexpected properties is a subtle interference effect, which is only possible in a quantum context. Carefully crafted control experiments ensure that measured data are compared with theoretical predictions with no adjustable parameters. Instrumental in this comparison is a new diagrammatic theory developed by the author.

ISBN: 9783031832703

Standard No.: 10.1007/978-3-031-83270-3doiSubjects--Topical Terms:

708305
Hamiltonian operator.

LC Class. No.: QC174.17.H3

Dewey Class. No.: 530.12

Controlling the effective Hamiltonian of a driven quantum superconducting circuit
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245 1 0 $a Controlling the effective Hamiltonian of a driven quantum superconducting circuit $h [electronic resource] / $c by Jayameenakshi Venkatraman.
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300 $a xvii, 129 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5061
500 $a "Doctoral thesis accepted by Yale University, USA."
505 0 $a Chapter 1: Preamble -- Chapter 2: The squeeze-driven Kerr oscillator (SKO) implemented in a driven superconducting circuit -- Chapter 3: Representations and properties of the SKO -- Chapter 4: Experimental setup -- Chapter 5: Quantum tunneling observations in the ground state manifold of the SKO -- Chapter 6: Excited state manifold: spectral kissing, multilevel degeneracies, and their fingerprint on the qubit lifetime -- Chapter 7: A decoherence model for the SKO: an RWA model and treating effects beyond the RWA -- Chapter 8: Conclusions and future directions.
520 $a The thesis illustrates, with a remarkable combination of theoretical analysis and experimental investigation, how the static Hamiltonian of an oscillator with both 3rd and 4th order non-linearity can morph into a profoundly different Hamiltonian under the influence of an oscillating driving force. In a classical system, such transformation would not be considered a novelty, but the author demonstrates that the new Hamiltonian can possess an exotic symmetry with surprising new quantum properties that one would never anticipate from the original Hamiltonian, with no classical equivalent. The root cause of these unexpected properties is a subtle interference effect, which is only possible in a quantum context. Carefully crafted control experiments ensure that measured data are compared with theoretical predictions with no adjustable parameters. Instrumental in this comparison is a new diagrammatic theory developed by the author.
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650 0 $a Superconductors. $3 672287
650 1 4 $a Quantum Simulations. $3 3606527
650 2 4 $a Quantum Computing. $3 1620399
650 2 4 $a Mathematical Physics. $3 1542352
650 2 4 $a Superconductivity. $3 605754
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950 $a Physics and Astronomy (SpringerNature-11651)