murshid Posted October 2, 2010 Share Posted October 2, 2010 Are the ideas that "Higgs boson exists" and "supersymmetry is a symmetry of nature" falsifiable even in principle? If yes, then how? Link to comment Share on other sites More sharing options...
Klaynos Posted October 2, 2010 Share Posted October 2, 2010 I am not a particle physicist. But as I understand it, the Higgs boson and supersymettry effects should be measurable at predictable energies. If our experiments at those energies do not show the predicted effects then we know that they do not exist, at least in the way be thought they did. Those energies should be achievable in the LHC. So yes, they are falsifiable. Link to comment Share on other sites More sharing options...
Severian Posted October 3, 2010 Share Posted October 3, 2010 It depends on your definition. The Higgs boson of the Standard Model is falsifiable, since if it exists it will be seen by the LHC. If itisn't seen by the LHC it is falsified. However, some models of the Higgs boson make the Higgs invisible to the LHC. So this is not falsifiable by the LHC, but it is still falsifiable in other ways (at other yet-to-be-built colliders). Similarly, low energy supersymmetry (e.g. the MSSM with a SUSY scale of 1 TeV) would be seen at the LHC, so is falsifiable. But high energy supersymmetry (which only manifests at energies applicable to String Theory) is not right now (though may be falsifiable hundreds of years in the future). Link to comment Share on other sites More sharing options...
murshid Posted October 3, 2010 Author Share Posted October 3, 2010 Thanks for the replies! Link to comment Share on other sites More sharing options...
alpha2cen Posted November 14, 2010 Share Posted November 14, 2010 If Higgs bozon really exist, how do we know about their existence in the LHC experiment? Experiment Result ----------> Higgs bozon existence Do we know the difference between other new particle detection and Higgs bozon detection? Any good material to describe that procedure? Materials which describe whole concept clearly and concisely from experment result to Higgs bozon existence. Link to comment Share on other sites More sharing options...
Lycaenid Posted November 14, 2010 Share Posted November 14, 2010 I think that if something like Higgs boson will exist in LHC, protons and neutrons which 'participate' in this experiment can lose their mass (if they are near the Higgs boson) and 'take it' back (if they are receding away from it). But it's my suggestion and if someone can confirm or deny this, I will be grateful. 1 Link to comment Share on other sites More sharing options...
ajb Posted November 14, 2010 Share Posted November 14, 2010 Do we know the difference between other new particle detection and Higgs bozon detection? The short answer is yes. Any good material to describe that procedure? Materials which describe whole concept clearly and concisely from experment result to Higgs bozon existence. This is going to depend on your prior knowledge. I don't know if Severian can suggest good references, he works in particle theory and I think should be able to help. Link to comment Share on other sites More sharing options...
alpha2cen Posted November 15, 2010 Share Posted November 15, 2010 The thing that Higgs bozon is existence or not is an important problem. But more important thing is' if it existed, we could have an ability to detect it .' More energy loss existed, but any particle trajectory did not find, so any unknown particle existence. Detection theory would also be important. Present detection theory is perfect to detect it? Link to comment Share on other sites More sharing options...
Severian Posted November 16, 2010 Share Posted November 16, 2010 If Higgs bozon really exist, how do we know about their existence in the LHC experiment? Experiment Result ----------> Higgs bozon existence Do we know the difference between other new particle detection and Higgs bozon detection? Any good material to describe that procedure? Materials which describe whole concept clearly and concisely from experment result to Higgs bozon existence. We would see a resonance in a decay channel. This tells us that there is definitely a particle there, of a particular mass, that couples to the same particle we expect the Higgs to couple to. But of course that doesn't mean that it is the Higgs. To really prove that, we will have to measure its spin (we have never seen a fundamental particle with no spin before) and all its couplings. Crucially, the Higgs self coupling will allow us to experimentally map the shape of the Higgs potential (the Mexican hat), but that is really way beyond the LHC's capabilities. Link to comment Share on other sites More sharing options...
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