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INTRODUCTION TO Maltese Teacher Programme 2019 KATE SHAW UNIVERSITY OF SUSSEX THE ATLAS INTRODUCTION TO PARTICLE PHYSCIS THE LARGE Collides ~ 1 Billion a second! At the highest ever (13 TeV!) INTRODUCTION TO PARTICLE PHYSCIS THE The LHC accelerates some of the smallest objects in the

up to almost the fastest speeds possible in the universe (speed of )

Using 1.9 K

(-271.3°C), colder than outer ! INTRODUCTION TO PARTICLE PHYSCIS THE LARGE HADRON COLLIDER The LHC is a 27 KM (almost 17 miles) in circumference

Up to 100 m underground! INTRODUCTION TO PARTICLE PHYSCIS THE LARGE HADRON COLLIDER WHAT DOES A PARTICLE DO? Questions we might ask: ▸Where did everything come from? ▸What is everything made out of? ▸How does it (interact)?

Physicists are ambitious!

Particle want to understand what the fundamental of are and the fundamental between them. What do we mean by ‘Fundamental’? INTRODUCTION TO PARTICLE PHYSCIS THE BEGINNING… 13.8 Billion years ago INTRODUCTION TO PARTICLE PHYSCIS WHERE DID EVERYTHING COME FROM?

Edwin Hubble, American , first to prove there are outside of the Milky Way (1924) INTRODUCTION TO PARTICLE PHYSCIS WHERE DID EVERYTHING COME FROM?

Hubble showed that the further away a is from us (or any point in space), the faster it appears to move (1929) INTRODUCTION TO PARTICLE PHYSCIS WHERE DID EVERYTHING COME FROM?

Space is stretching at a constant rate!

Hubble constant: 42 miles/second/3 million light year steps INTRODUCTION TO PARTICLE PHYSCIS WHERE DID EVERYTHING COME FROM? INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? “The universe is composed of two elements: the and the void in which they exist and move.”

‘All matter consists of invisible particles called ‘atoms’ , philosopher, ~5 BC The word comes from atomos, an ancient Greek word meaning indivisible

‘Atoms are indestructible, but invisible, homogenous, and differ in ,

Leucippus , Ancient Greek shape, , position and arrangement’ philosopher, ~5 BC INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? In 1869 Russian Dimitri Mendeleev published the periodic table, arranging chemical elements by atomic mass.

~ 80 elements – WHY SO MANY?

Is there a simpler structure? INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? seeks to understand fundamental particle and forces

Proton

Neutron

Electron

• 1897 discovered by J.J. Thompson

• 1911 nucleus of the atom discovered by , and nucleus of hydrogen a

• 1932 discovered by INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? Particle Physics seeks to understand fundamental particle and forces • – particle of the electromagnetic suggested by Einstein in 1905

• Electromagnetic could only exist as discrete packets –light or photon INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? However other particles not part of the atom seemed to appear!

• 1932 detected (predicted by Dirac in 1928)

• 1934 established in – detected in 1956

Cosmic rays • 1937 were discovered in cosmic rays

Who ordered that?

• 1947 ( a type of ) were also discovered!!

Things were getting out of hand! What were all these particles? INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? Atom smashers (1950s) Plethora of NEW particles started coming out of these atom smashes! Sigma particles, rho particles, Delta particles, , The Brookhaven Cosmotron, at … 1.3 – 3.3 GeV accelerator INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? BREAK THROUGH 1960s Murray Gell-Mann of Caltech said are composed of more fundamental particles which he called .

The word comes from a line in Finnegans Wake, a book written by James Joyce. INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF?

Quarks lived together in twos or threes, making up hadrons like the proton INTRODUCTION TO PARTICLE PHYSCIS HOW DOES EVERYTHING INTERACT? INTRODUCTION TO PARTICLE PHYSICS

HOW DOES MATTER INTERACT? INTRODUCTION TO PARTICLE PHYSICS

HOW DOES MATTER INTERACT? INTRODUCTION TO PARTICLE PHYSICS

THE OF PARTICLE PHYSICS The Higgs was the last of the fundamental particles predicted by the Standard Model to be observed.

Fundamental particles interact with the Higgs and acquire mass! INTRODUCTION TO PARTICLE PHYSICS

THE STANDARD MODEL OF PARTICLE PHYSICS INTRODUCTION TO PARTICLE PHYSICS

THE STANDARD MODEL OF PARTICLE PHYSICS INTRODUCTION TO PARTICLE PHYSICS

THE STANDARD MODEL OF PARTICLE PHYSICSThe of gauge with is very well described by the standard model INTRODUCTION TO PARTICLE PHYSCIS

THE STANDARD MODEL OF PARTICLE

PHYSICS  First line provides about force carrying particles and how they interact

 Second line shows how matter particles interact via by the force carriers

 Third line shows how the matter particles couple to the Higgs f ,

 Notice the Yukawa yij which represents the parameter to the Higgs field, and is directly proportional to the mass of a particle

 Last line shows how vector bosons couple to the Higgs field , and the Higgs field potential INTRODUCTION TO PARTICLE PHYSCIS WHAT IS EVERYTHING MADE OF? INTRODUCTION TO PARTICLE PHYSCIS HOW DO WE STUDY PARTICLE PHYSICS? INTRODUCTION TO PARTICLE PHYSCIS HOW DO WE STUDY PARTICLE PHYSICS?

E = mc2 INTRODUCTION TO PARTICLE PHYSCIS HOW DO WE STUDY PARTICLE PHYSICS? INTRODUCTION TO PARTICLE PHYSCIS HOW DO WE STUDY PARTICLE PHYSICS? Particle Physics INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT ATLAS comprises 5000 from about 180 institutions around the , representing 38 countries INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT

Standard Model Production Cross Section Measurements Status: August 2016

] total (x2)

b 11 ATLAS Preliminary 10 inelastic Theory

p [ √ Run 1,2 s =7, 8,13 TeV √ nj ≥ 1 LHC pp =7 σ 6 s TeV 10 0.1 < pT < 2 TeV Data 4.5 − 4.9fb−1 nj ≥ 2 0.3 < mjj < 5TeV 105 √ LHC pp s =8TeV pT > 25 GeV −1 4 Data 20.3fb 10 nj ≥ 0 √ LHC pp s =13 TeV 3 nj ≥ 0 n ≥ 1 10 j nj ≥ 0 Data 0.08 − 14.8fb−1 total WW pT > 100 GeV nj ≥ 2nj ≥ 1 t -chan 2 nj ≥ 1 WW 10 WW total nj ≥ 2 nj ≥ 3 Wt WZ nj ≥ 2 WZ ggF 1 nj ≥ 3 ZZ WZ 10 nj ≥ 4 H→WW nj ≥ 3 nj ≥ 4 W γ ZZ ZZ nj ≥ 4 nj ≥ 5 s-chan Z γ nj ≥ 5 nj ≥ 4 H→ττ 1 nj ≥ 6 nj ≥ 5 Zγ nj ≥ 6 nj ≥ 7 nj ≥ 5 VBF −1 nj ≥ 6 H→WW 10 nj ≥ 8 nj ≥ 6 nj ≥ 7 H→γγ −2 nj ≥ 7 10 nj ≥ 7 H→ZZ→4ℓ

W ± W ± 10−3 WZ

pp Jet s γ W Z t¯t t VV γγ H Vγ t¯tWt¯tZ t¯t γ Zjj WW Zγγ Wγγ VVjj R= 0.4 EWK Excl. EWK fid. fid. fid. fid. tot. tot. fid. fid. fid. tot. tot. fid. fid. tot. fid. fid. fid. INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT

The observed signal strengths and for different decay channels and their combination for mH=125.36 GeV

Signal strength μ = σ/σSM

Deviation from μ =1 could indicate new physics! INTRODUCTION TO PARTICLE PHYSCIS THE ATLAS EXPERIMENT INTRODUCTION TO PARTICLE PHYSCIS SEARCHES FOR NEW PHYSICS!! STANDARD MODEL PHYSICS HIGGS PHYSICS

TOP PHYSICS

BEYOND STANDARD MODEL PHYSICS

SUPERSYMMETRY

EXOTICS EXTRA / THEORY… INTRODUCTION TO PARTICLE PHYSCIS VISIT HTTP://WWW.ATLAS.CERN/ FOR ALL YOUR PHYSICS NEEDS 