**Applications in Sectors**

## Index

### Overview

- Aplicaciones de quantum annealing
- Quantum Computing: Vision and Challenges
- Quantum information technology and innovation: a brief history, current state and future perspectives for business and management
- Tecnologías Cuánticas. Una oportunidad transversal e interdisciplinar para la transformación digital y el impacto social
- The Quantum Decade

### Aerospace

- A Hybrid Classical Quantum Computing Approach to the Satellite Mission Planning Problem
- Efficient Earth Observation Satellites Mission Planning with Quantum Algorithm
- Exploiting the Quantum Advantage for Satellite Image Processing: Quantum Resource Estimation
- Quantum Computing for Space: Exploring Quantum Circuits on Programmable Nanophotonic Chips
- Quantum technologies. A potential game-changer in aerospace
- Satellite Placement Optimization Using Quantum Computing

### Biology

- Complexity of life sciences in quantum and AI era
- Future Potential of Quantum Computing and Simulations in Biological Science
- Leveraging quantum computing for dynamic analyses of logical networks in systems biology
- mRNA secondary structure prediction using utility-scale quantum computers
- Predicting RNA Secondary Structure on Universal Quantum Computer
- Quantum Computing for Molecular Biology
- Semantic parsing of the life process by quantum biology

### Defense

### Chemistry and Physics

- A Comparative Analysis of Quantum Computing

Variational Quantum Eigensolver Algorithm and

Molecular Dynamics Simulations for Peptide Folding - A further step towards the practical application of quantum computing in chemistry
- A hybrid quantum-classical framework for computational fluid dynamics
- A quantum algorithm for high energy physics simulations
- A Quantum Computing Implementation of Nuclear-Electronic Orbital (NEO) Theory: Towards an Exact pre-Born-Oppenheimer Formulation of Molecular Quantum Systems
- Ab Initio Transcorrelated Method enabling accurate Quantum Chemistry on near-term Quantum Hardware
- Adapting the HHL algorithm to near-term quantum computing: application to non-unitary quantum many-body theory
- Applicability of Quantum Computing to Oxygen Reduction Reaction Simulations
- Application of Quantum Computers in Foreign Exchange Reserves Management
- Application of Quantum Machine Learning using the Quantum Variational Classifier Method to High Energy Physics Analysis at the LHC
- Artificial Neural Network Encoding of Molecular Wavefunction for Quantum Computing
- Capturing many-body correlation effects with quantum and classical computing
- Collisional S-Matrix for the Vibrational Dynamics of H+H2 Including Dissociative Processes by Quantum Computing
- Coupled cluster downfolding techniques: a review of existing applications in classical and quantum computing for chemical systems
- Coupled Cluster Downfolding Theory: towards universal many-body algorithms for dimensionality reduction of composite quantum systems in chemistry and materials science
- Description of reaction and vibrational energetics of CO2–NH3 interaction using quantum computing algorithms
- Determining probability density functions with adiabatic quantum computing
- Differentiable quantum computational chemistry with PennyLane
- Digitized-Counterdiabatic Quantum Algorithm for Protein Folding
- Elucidating Reaction Mechanisms on Quantum Computers
- Emerging quantum computing algorithms for quantum chemistry
- Folded Spectrum VQE : A quantum computing method for the calculation of molecular excited states
- How Quantum Computing Could Remake Chemistry
- Hybrid quantum-classical machine learning for generative chemistry and drug design
- Modelling Carbon Capture on Metal-Organic Frameworks with Quantum Computing
- Molecular design with automated quantum computing-based deep learning and optimization
- Molecular Dynamics on Quantum Annealers
- Molecular Energy Landscapes of Hardware-Efficient Ansätze in Quantum Computing
- Molecular Quantum Dynamics: A Quantum Computing Perspective
- New frontiers of quantum computing in chemical engineering
- Nuclear Physics in the Era of Quantum Computing and Quantum Machine Learning
- Open Source Variational Quantum Eigensolver Extension of the Quantum Learning Machine (QLM) for Quantum Chemistry
- Partitioning Quantum Chemistry Simulations with Clifford Circuits
- PUSHING THE LIMITS OF QUANTUM COMPUTING FOR SIMULATING PFAS CHEMISTRY
- Quantum Chemistry in the Age of Quantum Computing
- Quantum circuit learning as a potential algorithm to predict experimental chemical properties
- Quantum Computing Approach for Energy Optimization in a Prosumer Community
- Quantum computing enhanced computational catalysis
- Quantum computing enhanced machine learning for physico-chemical applications
- Quantum computing for chemistry and physics applications from a Monte Carlo perspective
- Quantum computing for fluids: where do we stand?
- Quantum Computing for Fusion Energy Science Applications
- Quantum computing for fusion energy science applications
- Quantum Computing for High-Energy Physics State of the Art and Challenges
- Quantum computing for near-term applications in generative chemistry and drug discovery
- Quantum Computing for Nuclear Physics
- Quantum Computing for Solid Mechanics and Structural Engineering – a Demonstration with Variational Quantum Eigensolver
- Quantum computing hardware for HEP algorithms and sensing
- Quantum computing library for quantum chemistry applications
- Quantum computing of fluid dynamics using the hydrodynamic Schrödinger equation
- Quantum computing of Hückel molecular orbitals of π-electron systems
- Quantum computing quantum Monte Carlo with hybrid tensor network toward electronic structure calculations of large-scale molecular and solid systems
- Quantum Computing to Study Cloud Turbulence Properties
- Quantum computing with and for many-body physics
- Quantum finite difference solvers for physics simulation
- Quantum hardware calculations of the activation and dissociation of nitrogen on iron clusters and surfaces
- Quantum neural networks force fields generation
- Quantum-centric Supercomputing for Materials Science: A Perspective on Challenges and Future Directions
- Realizing Quantum Technologies in Nanomaterials and Nanoscience
- Reference-State Error Mitigation: A Strategy for High Accuracy Quantum Computation of Chemistry
- Simulation of chemical reaction dynamics based on quantum computing
- Simulation of Chemical Reactions on a Quantum Computer
- Snowmass Computational Frontier: Topical Group Report on Quantum Computing
- Snowmass White Paper: Quantum Computing Systems and Software for High-energy Physics Research
- Software-Hardware Co-Optimization for Computational Chemistry on Superconducting Quantum Processors
- Solving a Higgs optimization problem with quantum annealing for machine learning
- The Basics of Quantum Computing for Chemists
- The Electronic Structure of the Hydrogen Molecule: A Tutorial Exercise in Classical and Quantum Computation
- Towards Efficient Quantum Computing for Quantum Chemistry: Reducing Circuit Complexity with Transcorrelated and Adaptive Ansatz Techniques
- Towards practical and massively parallel quantum computing emulation for quantum chemistry
- Variance minimisation on a quantum computer for nuclear structure
- Variational Quantum Algorithms for Chemical Simulation and Drug Discovery
- Variational Quantum Algorithms for Computational Fluid Dynamics

### Economics, finance and insurance

- A Brief Review of Quantum Machine Learning for Financial Services
- A Generalized Quantum Inner Product and Applications to Financial Engineering
- A More General Quantum Credit Risk Analysis Framework
- A Quantum Computing-based System for Portfolio Optimization using Future Asset Values and Automatic Reduction of the Investment Universe
- A Quantum Leap for Financial Services
- A Quantum Leap for Financial Services
- A Structured Survey of Quantum Computing for the Financial Industry
- A Structured Survey of Quantum Computing for the Financial Industry
- A Survey of Quantum Computing for Finance
- A Survey on Quantum Computational Finance for Derivatives Pricing and VaR
- Application of Quantum Computers in Foreign Exchange Reserves Management
- Applications of Quantum Machine Learning for Quantitative Finance
- Backtesting quantum computing algorithms for portfolio optimization
- Best practices for portfolio optimization by quantum computing, experimented on real quantum devices
- BQ-Bank: A Quantum Software for Finance and Banking
- Comparing Classical-Quantum Portfolio Optimization with Enhanced Constraints
- Dynamic Portfolio Optimization with Real Datasets Using Quantum Processors and Quantum-Inspired Tensor Networks
- Exponential Qubit Reduction in Optimization for Financial Transaction Settlement
- Financial Fraud Detection: A Comparative Study of Quantum Machine Learning Models
- Financial Index Tracking via Quantum Computing with Cardinality Constraints
- Financial Risk Management on a Neutral Atom Quantum Processor
- Finding the Optimal Currency Composition of Foreign Exchange Reserves with a Quantum Computer
- Forecasting financial crashes with quantum computing
- Fraud detection with a single-qubit quantum neural network
- Hybrid quantum-classical optimization for financial index tracking
- Improving the efficiency of payments systems using quantum computing
- Interpreting Housing Prices with a MultidisciplinaryApproach Based on Nature-Inspired Algorithms and Quantum Computing
- Modern finance through quantum computing—A systematic literature review
- Near Future Stock Market Forecasting BasedOn Chaos Theory, Sentiment Analysis, andQuantum Computing
- NISQ-HHL: Portfolio Optimization for Near-Term Quantum Hardware
- Portfolio Optimization via Quantum Zeno Dynamics on a Quantum Processor
- Portfolio Optimization with Digitized-Counterdiabatic Quantum Algorithms
- Potential Applications of Quantum Computing for the Insurance Industry
- Preparing random state for quantum financing with quantum walks
- Pricing Financial Derivatives with Exponential Quantum Speedup
- Prospects and challenges of quantum finance
- Quantum Computation for Pricing Caps using the LIBOR Market Model
- Quantum Computation for Pricing the Collateral Debt Obligations
- Quantum Computing applications in Financial Services
- Quantum computing applications, challenges, and prospects in financial portfolio optimization
- Quantum computing approach to realistic ESG-friendly stock portfolios
- Quantum Computing for Finance: State of the Art and Future Prospects
- QUANTUM COMPUTING FOR FINANCIAL MATHEMATICS
- Quantum computing for financial risk measurement
- Quantum Computing for Option Portfolio Analysis
- Quantum computing in Finance: Pricing of European and American options
- Quantum Computing in Finance: the Intesa Sanpaolo Experience
- Quantum computing reduces systemic risk in nancial networks
- Quantum Machine Learning for Finance
- Quantum Portfolio Optimization with Investment Bands and Target Volatility
- Quantum portfolio value forecasting
- Quantum Risk Analysis
- Quantum Technology for Economists
- QuantumLeap: Hybrid quantum neural network for financial predictions
- Real Option Pricing using Quantum Computers
- Recent progress and perspectives on quantum computing for finance
- TensorFlow Quantum: A Software Framework for Quantum Machine Learning
- The Impact of Quantum Computing on the Financial Sector
- The Potential of Quantum Techniques for Stock Price Prediction
- Time series generation for option pricing on quantum computers using tensor network

### Energy, Agriculture and Climate Change

- A Quantum Advantage in Fighting Climate Change
- A Quantum Computing Framework for Complex System Reliability Assessment
- Community Detection in Electrical Grids Using Quantum Annealing
- Computación cuántica: la tecnología que puede acelerar la lucha contra el cambio climático
- Exploration of Quantum Computing in Materials Discovery for Direct Air Capture Applications
- Exploring Quantum Machine Learning and Feature Reduction Techniques for Wind Turbine Pitch Fault Detection
- Quantum Artificial Intelligence for the Science of Climate Change
- Quantum Computing as a Game Changer on the Path towards a Net-Zero Economy: A Review of the Main Challenges in the Energy Domain
- Quantum computing for energy systems optimization: Challenges and opportunities
- Quantum computing for future real-time building HVAC controls
- Quantum Computing for Power Flow Algorithms: Testing on real Quantum Computers
- Quantum computing for smart grid applications
- Quantum Engineering for Energy Applications
- Quantum Leap in Energy Industry
- Quantum neural network autoencoder and classifier applied to an industrial case study
- Quantum technologies for climate change: Preliminary assessment
- Quantum Technologies x Climate Crisis: A Thesis
- Quantum Technology. Our Sustainable Future
- Using Quantum Computing Optimization to Maximize Agricultural Field Efficiency and Improve Crop Network Connectivity

### Logistics and Transport

- A Systematic Literature Review of Quantum Computing for Routing Problems
- Adiabatic Quantum Computing for Logistic Transport Optimization
- Formulation of the Electric Vehicle Charging and Routing Problem for a Hybrid Quantum–Classical Search Space Reduction Heuristic
- High-speed train timetable optimization based on space–time network model and quantum simulator
- Hybrid Quantum-Classical Neural Network for Incident Detection
- Multimodal Container Planning: a QUBO Formulation and Implementation on a Quantum Annealer
- Optimization of Delivery Plan by Quantum Computing
- Qualification of the potential of Quantum Computing on Operational Research issues within La Poste
- Quantum and the Automotive Industry
- Quantum computing approach to railway dispatching and conflict management optimization on single-track railway lines
- Quantum Computing for Automated Vehicle Trajectory Planning
- Quantum Computing in Logistics and Supply Chain Management - an Overview
- Quantum Computing in Supply Chain Management State of the Art and Research Directions
- Quantum Computing Methods for Supply Chain Management
- Quantum Shuttle: Traffic Navigation with Quantum Computing
- Qubit Efficient Quantum Algorithms for the Vehicle Routing Problem on Noisy Intermediate-Scale Quantum Processors
- Shaping the future of the application of quantum computing in intelligent transportation system
- Short Quantum Circuits in Reinforcement Learning Policies for the Vehicle Routing Problem
- Towards an Optimal Hybrid Algorithm for EV Charging Stations Placement using Quantum Annealing and Genetic Algorithms
- Traffic Signal Optimization on a Square Lattice with Quantum Annealing
- Trajectory Planning for Automated Vehicles using Quantum Computing

### Manufacturing Industry

- APPLICATION OF QUANTUM EXTREME LEARNING MACHINES FOR QOS PREDICTION OF ELEVATORS’ SOFTWARE IN AN INDUSTRIAL CONTEXT
- Multi-car paint shop optimization with quantum annealing
- Optimizing the Production of Test Vehicles using Hybrid Constrained Quantum Annealing
- Paint shop vehicle sequencing based on quantum computing considering color changeover and painting quality
- Quantum Computing Assisted Deep Learning for Fault Detection and Diagnosis in Industrial Process Systems
- Quantum Machine Learning For Failure Diagnosis: Analysis Of Different Quantum Encoding Methods
- Quantum Noise Assessment in Quantum Machine Learning Models for Equipment Failure Modes Diagnosis
- Rolling bearing fault diagnosis based on quantum LS-SVM

### Medicine, Health and Pharmacy

- A Classical-Quantum Convolutional Neural Network for Detecting Pneumonia from Chest Radiographs
- A perspective on the current state-of-the-art of quantum computing for drug discovery applications
- A resource-efficient variational quantum algorithm for mRNA codon optimization
- At the intersection of medical robotic surgery and drug discovery with quantum computing
- Biology and Medicine in the Landscape of Quantum Advantages
- Biology begins to tangle with quantum computing
- Demonstration of Breast Cancer Detection Using QSVM on IBM Quantum Processors
- DIABETIC RETINOPATHY DETECTION USING QUANTUM TRANSFER LEARNING
- Drug design on quantum computers
- Early quantum computing applications on the path towards precision medicine
- Exploring quantum computing use cases for life sciences
- Gate-based Quantum Computing for Protein Design
- Generalizable Quantum Computing Pipeline for Real World Drug Discovery
- Genome assembly using quantum and quantum-inspired annealing
- Histopathological Cancer Detection Using Hybrid Quantum Computing
- Hybrid quantum convolutional neural networks model for COVID-19 prediction using chest X-Ray images
- Improved Quantum Algorithm: A Crucial Stepping Stone in Quantum-Powered Drug Discovery
- Medical image classification via quantum neural networks
- Oncological Applications of Quantum Machine Learning
- Potential of quantum computing to effectively comprehend the complexity of brain
- Q-Drug: a Framework to bring Drug Design into Quantum Space using Deep Learning
- Quantum Computing and its Applications in Healthcare
- Quantum computing at the frontiers of biological sciences
- Quantum Computing for Healthcare: A Review
- Quantum Computing in Pharma: A Multilayer Embedding Approach for Near Future Applications
- QUANTUM COMPUTING POTENTIALS FOR DRUG DISCOVERY
- Quantum Computing-Enhanced Algorithm Unveils Novel Inhibitors for KRAS
- QUANTUM MACHINE LEARNING APPLIED TO THE CLASSIFICATION OF DIABETES
- QUANTUM MACHINE LEARNING APPLIED TO THE CLASSIFICATION OF DIABETES
- Quantum Machine Learning for Drug Discovery
- Quantum Machine Learning for Health State Diagnosis and Prognostics
- Quantum Machine Learning Framework for Virtual Screening in Drug Discovery: a Prospective Quantum Advantage
- Quantum Methods for Neural Networks and Application to Medical Image Classification
- Quantum network medicine: rethinking medicine with network science and quantum algorithms
- QuASeR: Quantum Accelerated De Novo DNA Sequence Reconstruction
- The Disruptive Power of Quantum Computing in Precision Medicine
- The Quantum-Medical Nexus: Understanding the Impact of Quantum Technologies on Healthcare
- The state of quantum computing applications in health and medicine
- Towards quantum computing for clinical trial design and optimization: A perspective on new opportunities and challenges
- Towards quantum-enabled cell-centric therapeutics

### Others

- 6G Networks Orientation by Quantum Mechanics
- Applications of Quantum Computing You Might Not Know About
- Beyond Human Comprehension: AGI-Driven Advances in Information Geometry Using Quantum Computing
- Can quantum computing fuel a leap in battery research?
- D-Wave Implementation of Quantum Annealing fo rOptimal Resource Allocation in Disaster Response Operation of Marikina City
- Geo: An End-to-end antum Learning Framework for Geoscience — A Case Study on Full-Waveform Inversion
- Introducing a Research Program for Quantum Humanities – Theoretical Implications
- QAC: Quantum-computing Aided Composition
- QCEDA: Using Quantum Computers for EDA
- Quantum computational intelligence for traveltime seismic inversión
- Quantum Computer Music: Foundations and Initial Experiments
- Quantum Computers for Weather and Climate Prediction:The Good, the Bad and the Noisy
- Quantum Computing for Learning Analytics: An Overview of Challenges and Integration Strategies
- Quantum computing in civil engineering: Limitations
- Quantum Fault Trees
- Quantum for Good and the Societal Impact of Quantum Computing
- Quantum technology for military applications
- Quantum Vision Clustering
- The Potential of Quantum Computing for Geoscience