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Revision 22 as of 2018-12-07 15:53:17
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  * Scientific motivation
  * Survey of the current technologies (price and readiness)
   * High power laser (how much power? stability?) [Haino?]
   * Parametric instabilty vs power, mitigation schemes [Michimura? KYamamoto?]
   * Squeezing (squeezing level, losses) [Matteo?]
   * Filter cavity (losses) [Matteo?]
   * Mirror (mass, coating, absorption) [Hirose?]
  * Suspending larger mirror [Okutomi?]
   * Suspension design for suspension thermal noise reduction (upper stage masses, sapphire blades, ribbon design) [Tomaru?]
   * Improving heat conductivity of sapphire fibers [Tomaru?]
  * Extreme RSE (high SRM reflectivity possible?) [Michimura?]
   * Technological noises at low frequencies [Michimura?]
   * Newtonian noise cancellation [Nishizawa?]
  * Limits of the current facility
  * Mirror size in cryostat [KYamamoto?]
   * Filter cavity length [Matteo?]
   * Computing resources [Chunglee?]
  * Trade-off studies
  * Time scale of plans: near-term(more realistic) and longer-term(some dreams)
  * Back up plans
  * R&Ds to be done : input to the PRDC
  * Budget estimate
  * Project execution plan
 * Scientific motivation
   * Stellar-mass BBH
     * population (parameter estimation)
     * stocastic background
     * host galaxy identification
   * Intermediate-mass BBH
     * formation scenarios
     * polulation (parameter estimation)
     * stocastic background
   * BNS and BHNS
     * population (parameter estimation)
     * NS EOS and tidal deformation
     * short gamma-ray burst
     * kilono
va
     * stocastic background
   * Accereting binaries
     * low-mass x-ra
y binaries
   * Isolated NS
     * NS remnant
     * magnetar
flare
     * stellar oscillation
   * Supernova
     * explosion models
     * polarization
   * cosmic string
     * bursts from kinks and cusps
     * stochastic background
   * Pulsar
     * pulsar ellipticity
(continuous)
     * pulsar glitches (burst)
   * Cosmological stochastic background
     * inflation
     * phase transition
   * Test of gravity
     * generation in strong field
     * propagation
     * polarization
     * BH no-hair theorem (ringdown)
   * Cosmology
     * Hubble constant measurement
   * Others
     * BH echo
     * fast radio burst
 * Survey of the current technologies (price and readiness)
* High power laser (how much power? stability?) [Haino?]
  * Parametric instabilty vs power, mitigation schemes [Michimura? KYamamoto?]
  * Squeezing (squeezing level, losses) [Matteo?]
  * Filter cavity (losses) [Matteo?]
  * Mirror (mass, coating, absorption) [Hirose?]
  * Suspending larger mirror [Okutomi?]
  * Suspension design for suspension thermal noise reduction (upper stage masses, sapphire blades, ribbon design) [Tomaru?]
  * Improving heat conductivity of sapphire fibers [Tomaru?]
  * Extreme RSE (high SRM reflectivity possible?) [Michimura?]
  * Technological noises at low frequencies [Michimura?]
  * Newtonian noise cancellation [Nishizawa?]
  * Technologies to accerelate commissioning work (e.g. machine learning for auto alignment)
  * Technologies to improve stability
  * Technologies to improve duty cycle
  * Technologies to reduce calibration error
 *
Limits of the current facility
  * Mirror size in cryostat [KYamamoto?]
  * Filter cavity length [Matteo?]
  * Computing resources [Chunglee?]
 * Trade-off studies
 * Time scale of plans: near-term(more realistic) and longer-term(some dreams)
 * Back up plans
 * R&Ds to be done : input to the PRDC
 * Budget estimate
 * Project execution plan
Line 39: Line 85:
    * Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
    * First draft to be circulated @ April 2019 F2F
    * Final version to be put for approval @ Aug 2019 F2F
 * Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
 * First draft to be circulated @ April 2019 F2F
 * Final version to be put for approval @ Aug 2019 F2F

Future Planning Committee (FPC) working wiki

Starting points

Draft of white paper

White paper plan

  • Scientific motivation
    • Stellar-mass BBH
      • population (parameter estimation)
      • stocastic background
      • host galaxy identification
    • Intermediate-mass BBH
      • formation scenarios
      • polulation (parameter estimation)
      • stocastic background
    • BNS and BHNS
      • population (parameter estimation)
      • NS EOS and tidal deformation
      • short gamma-ray burst
      • kilonova
      • stocastic background
    • Accereting binaries
      • low-mass x-ray binaries
    • Isolated NS
      • NS remnant
      • magnetar flare
      • stellar oscillation
    • Supernova
      • explosion models
      • polarization
    • cosmic string
      • bursts from kinks and cusps
      • stochastic background
    • Pulsar
      • pulsar ellipticity (continuous)
      • pulsar glitches (burst)
    • Cosmological stochastic background
      • inflation
      • phase transition
    • Test of gravity
      • generation in strong field
      • propagation
      • polarization
      • BH no-hair theorem (ringdown)
    • Cosmology
      • Hubble constant measurement
    • Others
      • BH echo
      • fast radio burst
  • Survey of the current technologies (price and readiness)
    • High power laser (how much power? stability?) [Haino?]
    • Parametric instabilty vs power, mitigation schemes [Michimura? KYamamoto?]
    • Squeezing (squeezing level, losses) [Matteo?]
    • Filter cavity (losses) [Matteo?]
    • Mirror (mass, coating, absorption) [Hirose?]
    • Suspending larger mirror [Okutomi?]
    • Suspension design for suspension thermal noise reduction (upper stage masses, sapphire blades, ribbon design) [Tomaru?]
    • Improving heat conductivity of sapphire fibers [Tomaru?]
    • Extreme RSE (high SRM reflectivity possible?) [Michimura?]
    • Technological noises at low frequencies [Michimura?]
    • Newtonian noise cancellation [Nishizawa?]
    • Technologies to accerelate commissioning work (e.g. machine learning for auto alignment)
    • Technologies to improve stability
    • Technologies to improve duty cycle
    • Technologies to reduce calibration error
  • Limits of the current facility
    • Mirror size in cryostat [KYamamoto?]
    • Filter cavity length [Matteo?]
    • Computing resources [Chunglee?]
  • Trade-off studies
  • Time scale of plans: near-term(more realistic) and longer-term(some dreams)
  • Back up plans
  • R&Ds to be done : input to the PRDC

  • Budget estimate
  • Project execution plan

Schedule for the white paper

  • Work in progress draft to be presented @ KIW in Feb 2019 : Feedbacks from Virgo
  • First draft to be circulated @ April 2019 F2F
  • Final version to be put for approval @ Aug 2019 F2F

KAGRA/KSC/FPC (last edited 2019-08-26 22:52:25 by SadakazuHaino)