Security and Privacy in the Internet of Everything (IoE): A Review on Blockchain, Edge Computing, AI, and Quantum-Resilient Solutions by Haluk Eren, Özgür Karaduman, Muharrem Tuncay Gençoğlu

“…Moreover, centralized security systems face increasing fragility due to single points of failure, various AI-based attacks, including adversarial learning, model poisoning, and deepfakes, and the rising threat of quantum computers to encryption protocols. This study systematically examines the individual and integrated solution potentials of technologies such as Blockchain, Edge Computing, Artificial Intelligence, and Quantum-Resilient Cryptography within the scope of IoE security. …”
Get full text

Industrial 300 mm wafer processed spin qubits in natural silicon/silicon-germanium by Thomas Koch, Clement Godfrin, Viktor Adam, Julian Ferrero, Daniel Schroller, Noah Glaeser, Stefan Kubicek, Ruoyu Li, Roger Loo, Shana Massar, George Simion, Danny Wan, Kristiaan De Greve, Wolfgang Wernsdorfer

“…Abstract The realisation of a universal quantum computer will require the operation of many thousands to millions of coherently coupled qubits. …”
Get full text

Structural Elucidation, DFT Calculations, Hirshfeld Surface Analysis, Molecular Dynamics Simulation, ADMET Profiles, and Molecular Docking of Two Benzazocine Derivatives NAOP-12 an... by Tanveer Hasan, Raza Murad Ghalib, Sayed Hasan Mehdi, Tazeem, Nazia Kazmi

“… In this study two novel benzazocine derivatives containing potentially anticancer properties, (a) NAOP-12 (C24H16N4) & (b) NEMKH-12 (C25H18N4), were investigated utilizing quantum computational technique. The equilibrium geometries of the compounds have been obtained and analyzed using the DFT-B3LYP/6-311++G(d,p) method. …”
Get full text

A Quantum-Classical Collaborative Training Architecture Based on Quantum State Fidelity by Ryan L'Abbate, Anthony D'Onofrio, Samuel Stein, Samuel Yen-Chi Chen, Ang Li, Pin-Yu Chen, Juntao Chen, Ying Mao

“…This constraint greatly inhibits the range of applications that can leverage quantum computers. Moreover, as the available qubits increase, the computational complexity grows exponentially, posing additional challenges. …”
Get full text

Runtime–Coherence Tradeoffs for Hybrid Satisfiability Solvers by Vahideh Eshaghian, Soren Wilkening, Johan Aberg, David Gross

“…This raises the question of how to divide computational tasks into a collection of parallelizable subproblems, each of which can be solved by a quantum computer with limited coherence time. Here, we approach this question via hybrid algorithms for the <inline-formula><tex-math notation="LaTeX">$k$</tex-math></inline-formula>-satisfiability problem (k-SAT). …”
Get full text

Characterizing maximally many-body entangled fermionic states by using $M$-body density matrix by Irakli Giorgadze, Haixuan Huang, Jordan Gaines, Elio J. König, Jukka I. Väyrynen

“…Fermionic Hamiltonians play a critical role in quantum chemistry, one of the most promising use cases for near-term quantum computers. However, since encoding nonlocal fermionic statistics using conventional qubits results in significant computational overhead, fermionic quantum hardware, such as fermion atom arrays, were proposed as a more efficient platform. …”
Get full text

Quantum Mechanical Approaches to Strongly Correlated Electron Systems: Structure, Bonding, and Properties of Diradicals, Triradicals, and Polyradicals by Satoru Yamada, Isamu Shigemoto, Takashi Kawakami, Hiroshi Isobe, Mitsuo Shoji, Koichi Miyagawa, Kizashi Yamaguchi

“…The second-order hyperpolarizability (<i>γ</i>) of diradicals such as a phenalenyl radical dimer were mainly investigated in relation to the generation of quantum squeezed lights, which are used for the construction of the quantum entangled states for quantum optical devices such as quantum sensing and quantum computation. Basic quantum mechanical concepts, such as the Pegg–Barnett quantum phase operator, were also revisited in relation to the design and chemical synthesis of stable diradicals and polyradicals such as optical quantum molecular materials and future molecular qubits materials.…”
Get full text

Enhancing the Harrow-Hassidim-Lloyd (HHL) algorithm in systems with large condition numbers by Peniel Bertrand Tsemo, Akshaya Jayashankar, K. Sugisaki, Nishanth Baskaran, Sayan Chakraborty, V. S. Prasannaa

“…Although the Harrow-Hassidim-Lloyd (HHL) algorithm offers an exponential speedup in system size for treating linear equations of the form Ax[over ⃗]=b[over ⃗] on quantum computers when compared to their traditional counterparts, it faces a challenge related to the condition number (κ) scaling of the A matrix. …”
Get full text

Dictionary-based Block Encoding of Sparse Matrices with Low Subnormalization and Circuit Depth by Chunlin Yang, Zexian Li, Hongmei Yao, Zhaobing Fan, Guofeng Zhang, Jianshe Liu

“…Block encoding severs as an important data input model in quantum algorithms, enabling quantum computers to simulate non-unitary operators effectively. …”
Get full text

Near-Term Spin-Qubit Architecture Design via Multipartite Maximally Entangled States by N. Paraskevopoulos, M. Steinberg, B. Undseth, A. Sarkar, L.M.K. Vandersypen, X. Xue, S. Feld

“…The design and benchmarking of quantum computer architectures traditionally rely on practical hardware restrictions, such as gate fidelities, control, and cooling. …”
Get full text

Synthesis of mono and hetero-bi nuclear lanthanum (III) and europium (III) complexes of 2-hydroxy-5-sulfobenzoic acid and 1,10-phenanthroline: luminescence and magnetic studies by Rukhsana J. Wani, Arshad Hussain, Mehraj Ud Din Sheikh, Mohd Nadeem Bukhari, Maryam Fatima, Gazunfor Ali

Get full text

Generalized Toric Codes on Twisted Tori for Quantum Error Correction by Zijian Liang, Ke Liu, Hao Song, Yu-An Chen

“…The Kitaev toric code is widely considered one of the leading candidates for error correction in fault-tolerant quantum computation. However, direct methods to increase its logical dimensions, such as lattice surgery or introducing punctures, often incur prohibitive overheads. …”
Get full text

Quantum complexity phase transitions in monitored random circuits by Ryotaro Suzuki, Jonas Haferkamp, Jens Eisert, Philippe Faist

“…In our proof, we make use of percolation theory to find paths along which an exponentially long quantum computation can be run below the critical rate, and to identify events where the state complexity is reset to zero above the critical rate. …”
Get full text

Algorithmic Shadow Spectroscopy by Hans Hon Sang Chan, Richard Meister, Matthew L. Goh, Bálint Koczor

“…Finally, we measured a high-quality, experimental shadow spectrum of a spin chain on readily available IBM quantum computers, achieving the same precision as in noise-free simulations without using any advanced error mitigation, and verified scalability in tensor-network simulations of up to 100-qubit systems.…”
Get full text

Accelerating two-dimensional electronic spectroscopy simulations with a probe qubit protocol by José D. Guimarães, James Lim, Mikhail I. Vasilevskiy, Susana F. Huelga, Martin B. Plenio

“…We find that simulations of the PQP on classical and quantum computers enable a reduction on the number of measurements, i.e., simulation runtime, and memory savings of several orders of magnitude relative to standard quantum simulation protocols of 2DES. …”
Get full text

Ubiquity of Rotational Symmetry Breaking in Superconducting Films, From Fe(Te,Se)/Bi2Te3 to Nb, and the Effect of Measurement Geometry by Debarghya Mallick, Hee Taek Yi, Xiaoyu Yuan, Seongshik Oh

“…Abstract FeTe0.5Se0.5/Bi2Te3 heterostructure is a promising new platform in the journey toward topological quantum computation, considering that first, FeTe0.5Se0.5 (FTS) is itself known to be a topological superconductor (TSC) and second, the heterostructure has topological interface states that can be proximitized into TSC even if FTS fails to become TSC on its own. …”
Get full text

A Reconfigurable Framework for Hybrid Quantum–Classical Computing by Pratibha, Naveed Mahmud

“…This approach makes the best use of current or near-term quantum computers by sharing the workload with classical high-performance computing. …”
Get full text

A lightweight hardware implementation of CRYSTALS-Kyber by Shiyang He, Hui Li, Fenghua Li, Ruhui Ma

“…The security of cryptographic algorithms based on integer factorization and discrete logarithm will be threatened by quantum computers in future. Since December 2016, the National Institute of Standards and Technology (NIST) has begun to solicit post-quantum cryptographic (PQC) algorithms worldwide. …”
Get full text

Comparative analysis of NTRUEncrypt modified post-quantum cryptographic system and standard RSA cryptosystem by P. V. Razumov, I. A. Smirnov, I. A. Pilipenko, A. V. Selyova, L. V. Cherkesova

“…The study objectives are to develop NTRUEncrypt, an efficient post-quantum cryptographic algorithm, which has high cryptographic resistance to quantum computer attacks, to work out a modification of the proposed algorithm, to analyze and experimentally validate its advantages.Materials and Methods. …”
Get full text

Universal logical quantum photonic neural network processor via cavity-assisted interactions by Jasvith Raj Basani, Murphy Yuezhen Niu, Edo Waks

“…Our results pave the way for near-term quantum photonic processors that enable error-corrected quantum computation, and can be achieved using present-day integrated photonic hardware.…”
Get full text