#xrd

The Radix Network validator set and ledger status — Radix's proof-of-stake — live from the official public Radix Gateway API, no key, nothing cached. Radix is a layer-1 built for DeFi with its own asset-oriented ledger; its network is secured by validators who stake XRD and accept delegations. This is the first Radix reader in the marketplace. Rank the validators by staked XRD, each with its name, total stake, share of network stake, fee factor and whether it is in the current active set. Look up a single validator by its component address for its stake, rank, share and fee. And read the live ledger status — the current epoch and round, the ledger state version, the validator count and the total XRD staked across the network. The validator-and-staking layer for Radix wallets, staking dashboards, delegators and analytics. Live from mainnet.radixdlt.com.

api.oanor.com/radixvalidators-api

X-ray crystallography maths as an API, computed locally and deterministically. The angle endpoint applies Bragg’s law, n·λ = 2·d·sinθ, to give the diffraction angle θ and the experimentally plotted 2θ from a crystal’s inter-planar spacing and the X-ray wavelength, defaulting to the common Cu Kα source at 0.15406 nm and reporting the highest observable order ⌊2d/λ⌋ — a 0.2 nm plane spacing diffracts Cu Kα to θ ≈ 22.65°, a 2θ peak near 45.3°. The spacing endpoint inverts the law, d = n·λ/(2·sinθ), reading the lattice spacing straight off a measured XRD peak — the everyday job of indexing a diffraction pattern, so a 2θ of 31.77° for table salt gives the 0.2814 nm (200) spacing. The wavelength endpoint solves λ = 2·d·sinθ/n to identify or calibrate the source. Lengths are entered in nanometres or ångström and angles in degrees, and any diffraction order n is supported. Everything is computed locally and deterministically, so it is instant and private. Ideal for materials-science, crystallography, mineralogy, XRD, semiconductor and solid-state-physics app developers, lattice-spacing and pattern-indexing tools, and laboratory software. Pure local computation — no key, no third-party service, instant. Live, nothing stored. 3 endpoints. This is reflection-geometry Bragg diffraction with the 2d factor; for optical double-slit and grating diffraction use a wave-optics diffraction API.

api.oanor.com/bragg-api