Mathematics / Matematik

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Access type: Open accessAuthor: search.filters.author.Pashaev, Oktay

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Now showing 1 - 10 of 53
  • Research Project
    Genel Dispersiyona Sahip Doğrusal Olmayan İntegrallenebilen Sistemler ve Dinamik Kuantum Simetrileri
    (2019) Pashaev, Oktay; Büyükaşık, Şirin Atılgan
    Bu projede, keyfi ve q-deforme olmuş dispersiyona sahip doğrusal olmayan yeni integrallenebilir sistemler ve tam çözülebilen dinamik quantum simetrilerine sahip kuantum modellerin hiyerarşisi inşa edildi. İlk olarak, normal koordinatlarda q- ve f- deforme olmuş osilatörler de dahil olmak üzere, klasik çok boyutlu integrallenebilen sistemler deforme olmuş keyfi deformasyona sahip doğrusal olmayan osilatörler olarak çözüldü. Schrödinger gösteriminde, keyfi dispersiyona sahip quantum parametrik osilatör denklemi çözüldü, quantum dinamik simetrileri bulundu, zamana bağlı evrim ve tam çözümleri de incelendi. Doğrusal olmayan integrallenebilen evrim denklemleri NLS, DNLS ve AKNS ile onların doğrusal gösterimleri için, doğrusal olmayan deformasyona sahip dispersiyonlar inşa edildi. Özel olarak, yineleme operatörün yardımıyla, q-deforme olmuş ve göreli dispersiyona sahip NLS, DNLS denklemler hiyerarşisi ve karşılık gelen rezonant soliton denklemleri elde edildi. Dinamik simetri ve evrim operatörü yöntemleri ile zamana bağlı ağırlık ve frekansa sahip kuantum parametrik osilatör için Schrödinger denklemi çözüldü. Bu modeller için koherent durumlar, sıkıştırılmış koherent durumlar, resonant ve sönümleme dinamikleri elde edildi. Kuantum Fourier dönüşümü yardımıyla, birin kökleri olan q ile ilişkili, kuantum grup simetrisi olarak koherent durumların superpozisyonu inşa edildi. Bu kaleydoskop durumlar kuantum enformasyon birimi olarak görülebilir. Tekli ve çoklu kubitler için Apollonius gösterimi bulundu. Halka biçimli bölgede N-poligon girdaplar ve onların doğrusal olmayan osilatör olarak quantizasyonu çalışıldı. Generik pq-Fibonacci ve altın analitik durumlar için q-analitik koherent durumlar ve ilgili Fock-Bargman gösterimleri tanıtıldı.
  • Article
    Relativistic Dissipatons in Integrable Nonlinear Majorana Type Spinor Model
    (Yunnan University, 2022) Pashaev, Oktay; Lee, J. H.
    By method of moving frame, the relativistic integrable nonlinear model for real, Majorana type spinor fields in 1+1 dimensions is introduced and gauge equivalence of this model with Papanicolau spin model on one sheet hyperboloid is established. In terms of the so called double numbers, the model is represented also as hyperbolic complex relativistic model, in the form similar to the massive Thirring model. By using Hirota's bilinear method, the one dissipaton solution of this model is constructed. We calculate first integrals of motion for this dissipaton and show that it represents a relativistic particle with highly nonlinear mass. Analyzing resonance conditions for scattering of two relativistic dissipatons, we find a solution describing resonant property of the dissipatons.
  • Conference Object
    Citation - Scopus: 1
    Pq-Calculus of Fibonacci Divisors and Method of Images in Planar Hydrodynamics
    (Springer, 2022) Pashaev, Oktay
    By introducing the hierarchy of Fibonacci divisors and corresponding quantum derivatives, we develop the golden calculus, hierarchy of golden binomials and related exponential functions, translation operator and infinite hierarchy of Golden analytic functions. The hierarchy of Golden periodic functions, appearing in this calculus we relate with the method of images in planar hydrodynamics for incompressible and irrotational flow in bounded domain. We show that the even hierarchy of these functions determines the flow in the annular domain, bounded by concentric circles with the ratio of radiuses in powers of the Golden ratio. As an example, complex potential and velocity field for the set of point vortices with Golden proportion of images are calculated explicitly.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 4
    Quantum Coin Flipping, Qubit Measurement, and Generalized Fibonacci Numbers
    (Pleiades Publishing, 2021) Pashaev, Oktay
    The problem of Hadamard quantum coin measurement in n trials, with an arbitrary number of repeated consecutive last states, is formulated in terms of Fibonacci sequences for duplicated states, Tribonacci numbers for triplicated states, and N-Bonacci numbers for arbitrary N-plicated states. The probability formulas for arbitrary positions of repeated states are derived in terms of the Lucas and Fibonacci numbers. For a generic qubit coin, the formulas are expressed by the Fibonacci and more general, N-Bonacci polynomials in qubit probabilities. The generating function for probabilities, the Golden Ratio limit of these probabilities, and the Shannon entropy for corresponding states are determined. Using a generalized Born rule and the universality of the n-qubit measurement gate, we formulate the problem in terms of generic n- qubit states and construct projection operators in a Hilbert space, constrained on the Fibonacci tree of the states. The results are generalized to qutrit and qudit coins described by generalized FibonacciN-Bonacci sequences.
  • Article
    Citation - WoS: 17
    Citation - Scopus: 17
    Quantum Calculus of Fibonacci Divisors and Infinite Hierarchy of Bosonic-Fermionic Golden Quantum Oscillators
    (World Scientific Publishing, 2021) Pashaev, Oktay
    Starting from divisibility problem for Fibonacci numbers, we introduce Fibonacci divisors, related hierarchy of Golden derivatives in powers of the Golden Ratio and develop corresponding quantum calculus. By this calculus, the infinite hierarchy of Golden quantum oscillators with integer spectrum determined by Fibonacci divisors, the hierarchy of Golden coherent states and related Fock-Bargman representations in space of complex analytic functions are derived. It is shown that Fibonacci divisors with even and odd kappa describe Golden deformed bosonic and fermionic quantum oscillators, correspondingly. By the set of translation operators we find the hierarchy of Golden binomials and related Golden analytic functions, conjugate to Fibonacci number F-kappa. In the limit. kappa -> 0, Golden analytic functions reduce to classical holomorphic functions and quantum calculus of Fibonacci divisors to the usual one. Several applications of the calculus to quantum deformation of bosonic and fermionic oscillator algebras, R-matrices, geometry of hydrodynamic images and quantum computations are discussed.
  • Article
    Citation - WoS: 4
    Relativistic Burgers and Nonlinear Schrödinger Equations
    (Pleiades Publishing, 2009) Pashaev, Oktay
    We construct relativistic complex Burgers-Schrodinger and nonlinear Schrodinger equations. In the nonrelativistic limit, they reduce to the standard Burgers and nonlinear Schrodinger equations and are integrable through all orders of relativistic corrections.
  • Conference Object
    Citation - WoS: 2
    Citation - Scopus: 2
    Quantum Group Symmetry for Kaleidoscope of Hydrodynamic Images and Quantum States
    (IOP Publishing, 2019) Pashaev, Oktay
    The hydrodynamic flow in several bounded domains can be formulated by the image theorems, like the two circle, the wedge and the strip theorems, describing flow by q-periodic functions. Depending on geometry of the domain, parameter q has different geometrical meanings and values. In the special case of the wedge domain, with q as a primitive root of unity, the set of images appears as a regular polygon kaleidoscope. By interpreting the wave function in the Fock-Barman representation as complex potential of a flow, we find modn projection operators in the space of quantum coherent states, related with operator q-numbers. They determine the units of quantum information as kaleidoscope of quantum states with quantum group symmetry of the q-oscillator. Expansion of Glauber coherent states to these units and corresponding entropy are discussed.
  • Conference Object
    Citation - WoS: 3
    Citation - Scopus: 4
    Special Functions With Mod N Symmetry and Kaleidoscope of Quantum Coherent States
    (IOP Publishing, 2019) Koçak, Aygül; Pashaev, Oktay
    The set of mod n functions associated with primitive roots of unity and discrete Fourier transform is introduced. These functions naturally appear in description of superposition of coherent states related with regular polygon, which we call kaleidoscope of quantum coherent states. Displacement operators for kaleidoscope states are obtained by mod n exponential functions with operator argument and non-commutative addition formulas. Normalization constants, average number of photons, Heinsenberg uncertainty relations and coordinate representation of wave functions with mod n symmetry are expressed in a compact form by these functions.
  • Conference Object
    Citation - WoS: 1
    Citation - Scopus: 2
    Apollonius Representation and Complex Geometry of Entangled Qubit States
    (IOP Publishing, 2019) Parlakgörür, Tuğçe; Pashaev, Oktay
    A representation of one qubit state by points in complex plane is proposed, such that the computational basis corresponds to two fixed points at a finite distance in the plane. These points represent common symmetric states for the set of quantum states on Apollonius circles. It is shown that, the Shannon entropy of one qubit state depends on ratio of probabilities and is a constant along Apollonius circles. For two qubit state and for three qubit state in Apollonius representation, the concurrence for entanglement and the Cayley hyperdeterminant for tritanglement correspondingly, are constant on the circles as well. Similar results are obtained also for n- tangle hyperdeterminant with even number of qubit states. It turns out that, for arbitrary multiple qubit state in Apollonius representation, fidelity between symmetric qubit states is also constant on Apollonius circles. According to these, the Apollonius circles are interpreted as integral curves for entanglement characteristics. The bipolar and the Cassini representations for qubit state are introduced, and their relations with qubit coherent states are established. We proposed the differential geometry for qubit states in Apollonius representation, defined by the metric on a surface in conformal coordinates, as square of the concurrence. The surfaces of the concurrence, as surfaces of revolution in Euclidean and Minkowski spaces are constructed. It is shown that, curves on these surfaces with constant Gaussian curvature becomes Cassini curves.
  • Conference Object
    Citation - Scopus: 5
    Kaleidoscope of Classical Vortex Images and Quantum Coherent States
    (Springer, 2018) Pashaev, Oktay; Koçak, Aygül
    The Schrödinger cat states, constructed from Glauber coherent states and applied for description of qubits are generalized to the kaleidoscope of coherent states, related with regular n-polygon symmetry and the roots of unity. This quantum kaleidoscope is motivated by our method of classical hydrodynamics images in a wedge domain, described by q-calculus of analytic functions with q as a primitive root of unity. First we treat in detail the trinity states and the quartet states as descriptive for qutrit and ququat units of quantum information. Normalization formula for these states requires introduction of specific combinations of exponential functions with mod 3 and mod 4 symmetry, which are known also as generalized hyperbolic functions. We show that these states can be generated for an arbitrary n by the Quantum Fourier transform and can provide in general, qudit unit of quantum information. Relations of our states with quantum groups and quantum calculus are discussed. © Springer Nature Switzerland AG 2018.