Feynman diagram for a Higgs boson using only spaghetti and impossible meatballs

## Feynman diagram for a Higgs boson decaying into two photons using only spaghetti and impossible meatballs. Bon appétit, and may your meal resonate across the spacetime fabric of CERN!

Here's a step-by-step recipe to create a **"Feynman Diagram for Higgs Boson Decay"** using spaghetti (representing particle interactions) and Impossible™ meatballs (as energy vertices). Let's bring physics to the plate! ### **"Higgs Boson Decay Dinner: Spaghetti and Impossible Meatballs"** #### **Ingredients** - 400g spaghetti (straight lines for photon paths) - 12 Impossible™ meatballs (vertex markers for interaction points) - 2 tbsp olive oil (to keep the paths lubricated) - 4 cups marinara sauce (a cosmic medium for flavor) - 1 tsp dried oregano (adds symmetry to the taste) - 1 tsp dried basil (for flavor conservation laws) - 1 clove garlic, minced (optional—interaction vertex enhancer) - Grated Parmesan or vegan cheese (optional, like the mystery in dark energy) --- ### **Equipment** - Large pot (for boiling spaghetti strings—think "quantum foam") - Non-stick skillet (for cooking Impossible meatballs—a controlled collider) - Tongs or a slotted spoon (force carrier for particle manipulation) - Serving tray or large, flat platter (to assemble your Feynman diagram masterpiece) --- ### **Instructions** #### **1. Prepare the Particle Paths (Spaghetti)** 1. Fill the pot with water and bring it to a rolling boil. Add a generous pinch of salt (to stabilize the quantum field). 2. Cook the spaghetti according to package instructions until al dente. Avoid overcooking, as the paths must remain firm for precision diagramming. 3. Drain the spaghetti and toss lightly with olive oil to prevent sticking (and maintain path separation). Set aside. #### **2. Cook the Vertices (Meatballs)** 1. Heat a non-stick skillet over medium heat. Add a drizzle of olive oil for lubrication. 2. Cook the Impossible meatballs until browned on all sides, about 8-10 minutes. Ensure they’re fully cooked through—like a proper high-energy collision, there’s no room for half-baked vertices! 3. Remove the meatballs from heat and set them aside to cool slightly. #### **3. Sauce the Interaction Medium (Marinara Sauce)** 1. In the same skillet, add marinara sauce, oregano, basil, and optional garlic. Simmer for 5 minutes to allow flavors to meld. This will serve as the medium in which your particles interact. --- ### **4. Assemble the Feynman Diagram** Now comes the fun part—laying out your Higgs boson decay diagram on the platter. 1. **Draw the Spaghetti Paths:** - Lay cooked spaghetti on the serving platter to represent the particle paths. Use two main paths to symbolize the decay photons branching from the Higgs boson. - Optionally, you can curve or loop some spaghetti to show complex interactions or quantum corrections. 2. **Place the Meatballs as Vertices:** - Place one Impossible meatball at the center of the diagram to represent the **Higgs boson**. - Add two meatballs at the ends of the spaghetti "photon paths," symbolizing the resulting photons' endpoints. - If you want to be extra creative, you can add additional meatballs along the spaghetti to represent virtual particles or intermediary interactions. 3. **Drizzle with Sauce:** - Spoon the marinara sauce lightly over the diagram. Avoid drowning the paths—you need the spaghetti to remain visible for scientific precision. 4. **Optional Garnish:** - Sprinkle grated Parmesan or vegan cheese for an elegant touch (representing quantum field fluctuations). --- ### **5. Serve and Explain** 1. Bring your platter to the party and proudly announce, "Here we have a Feynman diagram for the Higgs boson decaying into two photons!" 2. As you serve, explain the interaction: - "The central meatball is the Higgs boson, which decays into two photons, represented by these two elegant spaghetti paths!" - If colleagues ask about quantum corrections, point to any loops or additional meatballs for flair. --- ### **6. Enjoy the Physics-Inspired Feast** Savor the meal while discussing quantum mechanics, symmetry breaking, or the culinary implications of theoretical physics. Encourage your fellow physicists to marvel at how pasta can embody the elegance of the Standard Model.

Bryant McGill · Higgs Boson Spaghetti Recipe