Edward Laird - Atomic clock in your pocket

Portable time keeping then and now
- Th Scilly Naval disaster 1704, needed access to an accurate chronometer
GPS
- 10ns <-> 30m location, doesn’t need an accurate clock
- time keeping needed to make it resistant
- One satellite goes down
- Signal is jammed:
  - civilian code vs military code
  - civilian code is over a narrow band width
GPS denied env,
caesium, rubidium, quartz crystal: 10^-16, 10^-12, 10^-9 Principles of an atomic clock
laws of nature vs manufacture limitations
Oscillator, reference medium, detector feedback mechanism
- making a reference medium is a little tricky
- N in C60 —> nature’s atom trap
- The N atom doesn’t bond, it just floats in the middle of the cage. It is a bit squashed but behaves like a free atom
  - offers protection of spin states due to cage.
  - 50us coherence time at room temperature
  - But if your magnetic field changes your spin state frequency changes. So you need the magnetic field to be as accurate as the clock
  - You also have to think about the nuclear spin:
    - If you sit at the minimum of the transition field you no longer depend on magnetic field - The clock field
Kyriakos: Synthesis N in C60 like clay pigeon shooting, yield of 0.6%
Need to improve the line width of the absorption of the C60 at the clock transition by a factor of 1000.
LocatorX - company willing to put money
What is limiting the line width of the clock transition? - we don’t know
- It seems to be limited by the magnetic modulation to get a signal strong enough to measure.
- The next step is to measure line width at the clock transition
Gerrard: how about optically trapping the molecules, maybe even at vacuum

Ian Walmsley - How is big different than small? Shedding light on complexity.

Starting small, two photons coming into the beam splitter.
- You’d expect them to come out the same port 50% of the time as classical particles
- But you get quantum interference
What happens with more photons?
- independent single photons , elastic scattering, no interaction
- Feasible quantum advantage
S Aaronson’s blog: Shtetl Optimised He has been eight years upon a project for extracting sunbeams out of cucumbers.

Gerrard Milburn - The thermodynamics of time and learning

what do clocks do? They measure coincidences between local events here and now. Must specify the temperature of the local environment
Physical time is relational - time is always local.
The larger the limit cycle the more regular the clock signal. But the larger the limit cycle the more energy is dissipated.
Good clocks are necessarily dissipative Erker PRX 2017
Entropy increases into the future and into the past from the perspective of a local agent. Physical time is manifest time.
learning machines - they are driven to learn because that is the most efficient way to exploit their thermodynamic environment.
Heat and entropy must be dissipated during training
too much noise, random number generator basically
quantum perceptron is a dissipative switch subject to quantum noise
Thermodynamic efficiency of learning a rule in neural networks. Nothing done in the quantum case yet.
Akil Seth - the brain isn’t a video recorder. It takes in what it observes, forms an emulation and continuously updates its own emulation based on more information input.
What if communication between agents is more efficient than learning individually
Spiking is always a bit better
what are the laws of physics

Natalia Ares - Electrons and Mechanics

semiconductor platforms are some of the best devices to investigate questions on quantum and mechanics
semiconductors given you many options to couple quantum to mechanical effects
slizard engine - electron driving a piston
The thermodynamic cost of timekeeping
- resource to drive them
- heat to dissipate - waste
silicon nitride membrane 50 atoms thick
Drive the membrane with white noise - it acts as an effective temperature
what is the thermodynamic cost of processing quantum information

Tim Cook - Is Consciousness Physical?

Three questions

Wigner’s friend
Entanglement
Teleportation

Does consciousness collapse quantum states?

Ooh a qubit in a superposition state. If I observe it, i’ll project its state.
Against measurement - John Bell. Would you get a better measurement if the person had a phd
are frogs conscious - can frogs be entangled
can consciousness be teleported
you can’t have consciousness without learning but you can’t have learning without irreversibility.