1. send all grant applications
2. collect person bevis (sair saone)
3. collect tax paper (sair saone)
4. print pictures (sair arisha saone)
5. Check all documents
6. Send Libarary course paper
7. complete miniaturized paper to send anna
8. Contact Vinnova
9. Contact Alice and cooper
10. Fix meeting time
Friday, 21 September 2007
Monday, 17 September 2007
what to do:(
talk to japan embassy
talk to Vinno (thursday morning)
complete report
complete resume
do some measurement
what about assignments??
talk to Vinno (thursday morning)
complete report
complete resume
do some measurement
what about assignments??
todays work
September 16th 2007
1. Call VR
2. Call Vinnova
3. Call Noria
4. Complete Library assignment
5. Start labrotary schedule
6. Paper
1. Call VR
2. Call Vinnova
3. Call Noria
4. Complete Library assignment
5. Start labrotary schedule
6. Paper
Thursday, 6 September 2007
Job I have Applied
The following position for what I have applied
Ericsson
- Hardware designer 3G
- Reference Design Unit, BMUM (17159)
- System Designer - RF ASIC Production Test, BMUM (16136)
- RFIC designer, BMUM (15712)
- IC Packaging Engineer, Assembly and interconnect Technology, BMUM (17989)
Sony Ericsson
- HW Systems Engineer,
- HW Systems Engineer, Lund
- RF verification engineer, Lund
- Project Manager Development Environment, Lund
Nokia
- Design Engineers for Hardware-ULM0000000T
- BB HW Design Engineer-FAR0000001K
- Antenna, RF Engineer - Technical leader-VAN0000000A
SAAB
- SAAB Microwave, Systemkonstruktör Antennbyggsätt
- SAAB Microwave, Konstruktör Antennbyggsätt
- SAAB Space, Konstruktörer Mikrovågselektronik
Combitech
- Konsulter inom radio-och mikrovågsteknik
TRC
Ok I passed my TRC (technical review committe) hurdle. It was messy but at the end it was cool. I got some feedback may be good may be bad..
feedback 1: Highlights the major work from all. I dont knwo how to do it?
feedback 2: Give more emphasis on theory or academic portion rather than applciation or engineering portion.
And other positive comments are
How I am able to complete my thesis within 3 yrs and 9 months
I have enough publications
I did lots of work
My work is interesting for multi disciplinary application
Negative comment:
Lack of Academic results..
feedback 1: Highlights the major work from all. I dont knwo how to do it?
feedback 2: Give more emphasis on theory or academic portion rather than applciation or engineering portion.
And other positive comments are
How I am able to complete my thesis within 3 yrs and 9 months
I have enough publications
I did lots of work
My work is interesting for multi disciplinary application
Negative comment:
Lack of Academic results..
Friday, 17 August 2007
Margareta's Thesis
I am reading thesis of margareta
Classical computer cannot simulate Quantum Computer
There are algorithm for QC to solve mathematical Problems which cant be solved using classcal computers
Simulation of n but system needs C0*n qubit while C0^n classical bit
The fundamental problems is the qubit states are fragile, and the gragility is a great challange
The major difficulty is to operate the system and read out the information without distroying quantum coherence
Long coherence is a major requirement among the criteria formulated by David DiVincenzo
Other criteria is system must be scalble based on elementary block- qubit
Qubit is two level system characterised by SHI> which is super position of two computional basis state 0> and 1>
Superconducting SQUID is the macroscopic quantum system which can so longer coherence
Passive line with very high quality factor at very freqeuncy shows quantum effects
Non linear device's quantum effect suppresed by dissipations. If it can work in low dissipation, quantum effect can be observed
Superconducting ring with distinct current states-flux qubits
Coulomb blockade effect with small island with distinct charge state- charge qubit
Superconducting qubits can be fabricated using standard lithograohy and thus technically scalable
With bias currrent and voltage, initial state can be controlled
Qubit shows decoherence effect to reduce coherence time.
Radiation loss at circuit lead at high frequency, act like transmission line
Classical computer cannot simulate Quantum Computer
There are algorithm for QC to solve mathematical Problems which cant be solved using classcal computers
Simulation of n but system needs C0*n qubit while C0^n classical bit
The fundamental problems is the qubit states are fragile, and the gragility is a great challange
The major difficulty is to operate the system and read out the information without distroying quantum coherence
Long coherence is a major requirement among the criteria formulated by David DiVincenzo
Other criteria is system must be scalble based on elementary block- qubit
Qubit is two level system characterised by SHI> which is super position of two computional basis state 0> and 1>
Superconducting SQUID is the macroscopic quantum system which can so longer coherence
Passive line with very high quality factor at very freqeuncy shows quantum effects
Non linear device's quantum effect suppresed by dissipations. If it can work in low dissipation, quantum effect can be observed
Superconducting ring with distinct current states-flux qubits
Coulomb blockade effect with small island with distinct charge state- charge qubit
Superconducting qubits can be fabricated using standard lithograohy and thus technically scalable
With bias currrent and voltage, initial state can be controlled
Qubit shows decoherence effect to reduce coherence time.
Radiation loss at circuit lead at high frequency, act like transmission line
Thursday, 16 August 2007
Up-to-date to do list:)
1. Complete paper 02 (dyanmic inductance) (Aug 25 07)
2. outline paper 03 (tunable filter) (Aug 31 07)
3. complete and send assignments for MNF course (Aug 16 07)
4. Complete and send revised version of assignment for Popular scicen course (Aug 20 07)
5. Complete and send assignment for Information literacy course (Aug 31 07)
6. Prepare assignment for modeling course
7. complete assignment for academic writing course
8. Start for paper 04 (tunable narrowband power splitter)
9. start for paper 05 (tunable phase shifter)
10. Write thesis
2. outline paper 03 (tunable filter) (Aug 31 07)
3. complete and send assignments for MNF course (Aug 16 07)
4. Complete and send revised version of assignment for Popular scicen course (Aug 20 07)
5. Complete and send assignment for Information literacy course (Aug 31 07)
6. Prepare assignment for modeling course
7. complete assignment for academic writing course
8. Start for paper 04 (tunable narrowband power splitter)
9. start for paper 05 (tunable phase shifter)
10. Write thesis
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