Science – Page 130 – Investment Policy

Beyond Stabilizers: Harnessing Symmetry for Robust Quantum Codes

10.12.2025 by Ray Dalio

A new framework leverages the power of group representation theory to design quantum error correction codes that go beyond traditional Pauli-based approaches.

Spin Qubits Get a Surface Code Boost

10.12.2025 by Ray Dalio

Competing architectures for spin qubit arrangements-one utilizing shuttling qubits within linear rails and the other employing larger unit cells with dedicated readout ports-demonstrate distinct approaches to constructing two-dimensional logical arrays for surface code implementation, each with implications for qubit connectivity and the complexity of lattice surgery routing.

Researchers detail a new architecture that enhances the manufacturability and speed of quantum error correction for silicon-based spin qubits.

Quantum Scheduling Gets a Magic Boost

10.12.2025 by Ray Dalio

Lattice surgery facilitates the injection of ‘magic T’ states-specifically, $π/8$ rotations of Pauli operators XX, YY, or ZZ achieved through controlled merge operations-thereby providing fundamental primitives for the construction of arbitrary Pauli products.

A novel qubit management strategy streamlines quantum computation by dynamically repurposing resources for both error correction and routing.

Beyond Digital: A New Path to Quantum Supremacy

10.12.2025 by Ray Dalio

Researchers propose a hybrid digital-analog quantum computing model that could unlock quantum supremacy using near-term hardware.

Smartphone Encryption Cracked: A New Side-Channel Threat

10.12.2025 by Ray Dalio

The experimental setup details the measurement of $EMSCA$ specifically for the application target within the Fairphone 4 device.

Researchers demonstrate practical electromagnetic attacks can bypass modern smartphone security, even on devices with secure enclaves.

Spin & Light: Building Quantum Networks with Silicon

09.12.2025 by Ray Dalio

A new review explores how combining the spin of electrons with the power of photons could unlock scalable quantum communication and computation.

Beyond Bits: Encoding Resilient Qubits in Qutrit Ensembles

09.12.2025 by Ray Dalio

$Each qutrit, functioning as a 33-level quantum system configured in a V-shape with defined ground and excited states, interacts with a signal field within a single-mode cavity, exhibiting coupling strengths of $g_2$ and $g_3$ associated with transitions between energy levels defined by angular frequencies $\omega_j > 0$ for $j = 2, 3$.$

Researchers demonstrate a novel approach to protecting quantum information by encoding logical qubits within carefully controlled ensembles of three-level quantum systems.

Decoding Quantum Errors with Artificial Intelligence

09.12.2025 by Ray Dalio

$AlphaQubit 2 achieves high-throughput, accurate decoding of both surface and color codes-demonstrating logical error rates competitive with established decoders like Tesseract and Libra across varying code distances and noise levels-and establishes a pathway toward realizing real-time quantum error correction with superconducting or other hardware substrates, as evidenced by performance on both simulated ($0.15\%$ noise) and experimental (Willow data) datasets.$

A new neural network decoder promises to overcome a key hurdle in building practical quantum computers by enabling fast and accurate error correction.

Quantum Cloud Coordination: Meeting Deadlines in a Distributed World

09.12.2025 by Ray Dalio

As quantum computing scales, efficiently scheduling circuits across multiple processors becomes critical for maximizing throughput and minimizing execution time.

Quantum Security Gets a Boost with Smarter Signal Sharing

09.12.2025 by Ray Dalio

A non-orthogonal multiple access (NOMA) system, coupled with continuous-variable quantum key distribution (CVQKD), establishes a secure uplink where multiple users transmit key information via Gaussian-modulated coherent states to a base station employing successive interference cancellation, all while facing a collective attack from an eavesdropper attempting to compromise the key exchange.

Researchers demonstrate improved performance in quantum key distribution by applying principles of advanced wireless communication to enhance secure data transmission.