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Mohammad Bahrami

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[BOOK] Introduction to quantum computing: part 1 ![Introduction to quantum computing][1] &[Wolfram Notebook][2] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=Introduction-to-quantum-computing.png&userId=20103 [2]:... AUTHOR: Mohammad Bahrami 5919VIEWS 1REPLIES 6 months ago
Qubits explained: Bloch sphere, SU(2) rotations, time evolution, and measurements [![Qubits explained: Bloch sphere, SU(2) rotations & measurements — Guided, computation-first narrative][1]][2] &[Wolfram Notebook][3] [1]:... AUTHOR: Mohammad Bahrami 1284VIEWS 1REPLIES 6 months ago
[WTC25] Exponentials in noncommutative algebras: Zassenhaus, BCH and Magnus ![Exponentials in noncommutative algebras: Zassenhaus, BCH and Magnus][1] &[Wolfram Notebook][2] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=hero-image.jpeg&userId=1539902 [2]:... AUTHOR: Mohammad Bahrami 1534VIEWS 1REPLIES 6 months ago
Quantum interference loss via path encoding and recovery by quantum erasure ![Quantum interference loss via path encoding and recovery by quantum erasure][1] &[Wolfram Notebook][2] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=hereimage-John.png&userId=1539902 [2]:... AUTHOR: Mohammad Bahrami 6486VIEWS 1REPLIES 7 months ago
Nobel Prize in Physics 2025: Macroscopic Quantum Effects and the Dawn of Quantum Computer You only need to modify the Hamiltonian with a time-dependent terms describing pulses. The result of simulation depends on the formula of the time-dependent parts. Here is one example: ![enter image description here][1] &[Wolfram Notebook][2] ... AUTHOR: Mohammad Bahrami 7121VIEWS 2REPLIES BY: Mohammad Bahrami 8 months ago
Symbolic tensor networks: from graphs to tensor networks Make sure to check the documentation page of [EinsteinSummation][1] (which is a function of [Wolfram quantum framework][2]). [1]: https://resources.wolframcloud.com/PacletRepository/resources/Wolfram/QuantumFramework/ref/EinsteinSummation.html... AUTHOR: Mohammad Bahrami 2540VIEWS 1REPLIES BY: Mohammad Bahrami 9 months ago
Harrow-Hassidim-Lloyd (HHL) algorithm: a step-by-step approach Special thanks to [@Sebastian Rodriguez][at0] for lots of discussions on HHL. Many of steps in this essay were written based on his feedback and comments. [at0]: https://community.wolfram.com/web/srodriguez AUTHOR: Mohammad Bahrami 2779VIEWS 0REPLIES BY: Mohammad Bahrami 9 months ago
Issues with HHL algorithm implementation Here is a clean HHL that works for any Hermitian matrix and any dimension. Please note that the precision of HHL depends on the number of phase-estimation qubits (3rd argument). Our algorithm does not need rescaling etc that imposes some conditions... AUTHOR: A D 2037VIEWS 1REPLIES BY: Mohammad Bahrami 9 months ago
Anticommuting spinor calculations are you thinking of doing that in a finite vector space (eg Jordan-Wigner transform) or infinite dimensional space? Both cases can be handled by new non-commutative features: https://reference.wolfram.com/language/guide/NoncommutativeAlgebra.html In... AUTHOR: Todd Rowland 1876VIEWS 0REPLIES BY: Mohammad Bahrami 9 months ago
Bipartitions and the SVD-Schmidt: A quantum information toolkit ![Bipartitions and the SVD-Schmidt: A quantum information toolkit][1] &[Wolfram Notebook][2] [1]: https://community.wolfram.com//c/portal/getImageAttachment?filename=hero-img-SVD-2.png&userId=1539902 [2]:... AUTHOR: Mohammad Bahrami 3597VIEWS 0REPLIES 10 months ago

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