#go#devops_workflow#encrypt_secrets#gitops#kubernetes#kubernetes_secrets
Sealed Secrets is a tool for Kubernetes that lets you safely store sensitive information—like passwords or API keys—in your code repository by encrypting them so only your Kubernetes cluster can decrypt them. You use a tool called `kubeseal` to encrypt secrets on your computer, and then store the encrypted result in your repository. When you apply this encrypted secret to your cluster, a special controller inside Kubernetes decrypts it and creates a regular secret that your apps can use. This means you can manage all your configuration in Git, even secrets, without worrying about exposing sensitive data, and only the cluster itself can access the real secret[2][5][1]. The benefit is that your secrets are protected at every step, and you can use Git workflows for everything, making your setup more secure and easier to manage.
https://github.com/bitnami-labs/sealed-secrets
🪐 The mysterious "dark flow" observed in the movement of galaxy clusters like Abell 3627 suggests that something unseen—possibly related to dark matter or dark energy—is pulling vast regions of the universe in the same direction. This large-scale motion, detected using X-rays from hot gas in clusters, remains unexplained by normal gravity and hints at the hidden forces shaping the cosmos beyond what we can directly observe. ✨
#darkmatter⚡#universe⚡#galaxyclusters⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#cosmos⚡#space
👉subscribe Universe Mysteries
👉more Channels
🪐 Deep in the Coma Cluster, a packed group of over 1,000 galaxies, astronomers have measured how dark energy—a mysterious force causing the universe to expand faster over time—stretches the space between galaxies. Observations show that the distance between massive galaxies in the Coma Cluster grows not just from their own motion, but because dark energy is steadily pushing the entire cosmic structure apart. ✨
#darkenergy⚡#galaxyclusters⚡#cosmology⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
👉subscribe Universe Mysteries
🪐 The Bullet Cluster, found in the constellation Carina, provides some of the clearest real-world evidence for dark matter—a mysterious, invisible substance making up most of the universe’s mass. When two galaxy clusters crashed together, X-ray images showed that most of the visible matter stayed at the center, but gravity maps revealed most of the mass had moved ahead, proving something unseen—dark matter—was driving the collision's aftermath. ✨
#darkmatter⚡#galaxyclusters⚡#carina⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
👉subscribe Universe Mysteries
🪐 The cosmic microwave background holds a hidden fingerprint—tiny temperature fluctuations mapped in exquisite detail by satellites like Planck reveal how the first stars and galaxies, such as those in the ancient cluster Abell 2744, grew from initial small ripples in the early universe. These faint variations, just millionths of a degree, became the seeds around which all the cosmic structures we see today first assembled. ✨
#cosmicmicrowavebackground⚡#earlyuniverse⚡#galaxyclusters⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
👉subscribe Universe Mysteries
👉more Channels
🪐 The cosmic microwave background contains faint "Sunyaev-Zel’dovich effects," which happen when the ancient microwave light passes through hot gas in galaxy clusters like the Bullet Cluster. This process boosts the energy of some photons (light particles), leaving tiny shadows in the background glow—allowing astronomers to map both distant galaxy clusters and the hot plasma between galaxies by studying these subtle marks in the oldest light in the universe. ✨
#microwave⚡#background⚡#galaxyclusters⚡#plasma⚡#nasa⚡#galaxy⚡#stars⚡#astronomy⚡#universe⚡#cosmos⚡#space
👉subscribe Universe Mysteries
👉more Channels