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The DIY Cloud Chamber The cloud chamber is a simple particle detector that uses a super-saturated alcohol layer to pick up tracks of ionising radiation. More background can be found at royalholloway.ac.uk/PPresources. Materials: perspex tank – cheap fish tanks are often suitable – dimensions of 15 x 15 x 30 cm or similar rags/felt/cloth that can be soaked in alcohol alcohol (isopropanol is suitable) black metal sheet to fit the bottom of the tank insulated box to place tank in dry ice strong light source – e.g. old projector Method: 1. Attach the cloth that will act as the alcohol reservoir around the inside of the tank. Beware, the alcohol may degrade some glues. Silicone sealant could be used for this. 2. The metal sheet must fit tightly around the top of the chamber (in place of the lid if using a fish tank, for example). Colouring it black, or covering it in black tape is essential for increasing the visibility of any particle tracks. 3. Construct an insulated box (any foam insulation or similar should be suitable) for the dry ice to sit in. 4. To run the chamber, first soak the cloth in the chosen alcohol. 5. Drip some more alcohol on to the side of the metal sheet that will be inside the chamber and then place it on the chamber. Seal the edges thoroughly using duct tape or similar, this is important to prevent air flow at the edges interfering with the saturated alcohol layer. 6. Upend the chamber so the alcohol reservoir is at the top and place it on a layer of dry ice in the insulated box. 7. It will take ~10-15 minutes for an appropriate temperature gradient to form and tracks to appear. 8. Have a play! Given the wide range of designs and materials possible it is likely that you may need to iterate your design a few times before you see particle tracks. Key points are: A large temperature gradient between reservoir and metal sheet. Placing the reservoir too high can adversely affect this. Suitable lighting – a strong light source is needed and it may be necessary to block other light to ensure good visibility. Stable atmosphere in the chamber – as there is a temperature gradient, air will want to move around. Any leaks can disrupt the super-saturated alcohol layer. Viewing angle – particle tracks are often not visible from all angles (top down for example). Move around and find the best place to see them. Safety: Follow the normal safety procedures for using both solvents and dry ice. Take care when cutting up insulating material as some of these can be dangerous if not using a ventilator. For any questions, further advice, or more demos, visit royalholloway.ac.uk/physics/outreach or email [email protected].