İrfan Şaka scite author profile

There exists a variety of multiple-pulse NMR experiments for spectral editing of complex molecules in solution. Maximum quantum correlation NMR (MAXY NMR) spectroscopy is one of the techniques for distinguishing CHn groups by editing 1H NMR spectra. Spectral assignments of 2D homonuclear J-resolved NMR spectroscopy become too difficult, due to complex overlapping spectra. In order to overcome this problem a new technique called 2D MAXY-JRES NMR spectroscopy, which is the combination of MAXY NMR and homonuclear J-resolved NMR spectroscopy, is used. In this study, product operator description of 2D MAXY-JRES NMR spectroscopy is performed for ISnI’S’ m (I = I’ = ½ ; S = S’ = 1; n = 1,2, 3; m = 1, 2) multi-spin systems. Experimental suggestions are made and simulated spectra are presented for the 2D MAXY-JRES NMR experiment. Therefore, it is shown that 2D MAXY-JRES NMR spectroscopy can be used to distinguish CD, CD2 and CD3 groups from each other in CDnCDm groups.

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A Theoretical Application of MAXY NMR for CD_n Groups

Şaka

Gençten

2007

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Product operator theory of 2D MAXY–HMQC NMR spectroscopy for CDn groups

Şaka

Gençten

2007

Journal of Molecular Structure

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Construction and Application of Four-Qubit Swap Logic Gate in NMR Quantum Computing

Gün

Şaka

Gençten

2011

Int. J. Quantum Inform.

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In NMR quantum computing, spin states of spin-1/2 nuclei are called qubits. Quantum logic gates are represented by unitary matrices. As a universal gate, controlled-NOT (CNOT) is a two-qubit gate. For the IS (I = 1/2 and S = 1/2) spin system, two-qubit CNOT gate is represented by a 4 × 4 matrix. SWAP logic gate, which exchanges two quantum states, is constructed by CNOT gates. In this study, first, four-qubit CNOT gates are constructed for the IS (I = 3/2, S = 3/2) spin system. Then, by using these CNOT gates, a four-qubit SWAP logic gate is found. As an application and verification, an obtained SWAP logic gate is applied to the matrix representation of product operators for the IS (I = 3/2, S = 3/2) spin system. SWAP logic gate can also be presented by an NMR pulse sequence. By using the product operator theory, the pulse sequence of the SWAP logic gate is applied to product operators of the IS (I = 3/2, S = 3/2) spin system. The expected exchange results are obtained for both the matrix representation and the pulse sequence of SWAP logic gate.

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İrfan Şaka

A complete product operator theory forIS(I = ½,S = 1) spin system and application to DEPT–HMQC NMR experiment

A Theoretical Investigation of 2D MAXY-JRES NMR Spectroscopy of CD_nCD_m Groups

A Theoretical Application of MAXY NMR for CD_n Groups

Product operator theory of 2D MAXY–HMQC NMR spectroscopy for CDn groups

Construction and Application of Four-Qubit Swap Logic Gate in NMR Quantum Computing

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İrfan Şaka

A complete product operator theory forIS(I = ½,S = 1) spin system and application to DEPT–HMQC NMR experiment

A Theoretical Investigation of 2D MAXY-JRES NMR Spectroscopy of CDnCDm Groups

A Theoretical Application of MAXY NMR for CDn Groups

Product operator theory of 2D MAXY–HMQC NMR spectroscopy for CDn groups

Construction and Application of Four-Qubit Swap Logic Gate in NMR Quantum Computing

Contact Info

Product

Resources

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A Theoretical Investigation of 2D MAXY-JRES NMR Spectroscopy of CD_nCD_m Groups

A Theoretical Application of MAXY NMR for CD_n Groups