Файл: Литвинов, И. В. Структура атмосферных осадков.pdf

190.

I r i b a r n e

J.

V.,

K l e m e s

M. Electrification

associated

with

break-up

of

drops

at

terminal

velocity

in

air.— J. Atmosph. Sei.

1970, vol. 27, No.

6.

191.

J a r m a n

R.

T.

Stains produced by drops on filter

papers.— Quart.

J.

Roy. Meteor. Soc.

1956, vol. 82, No. 352.

192.

J a y a w e e r a

K.

O.,

M a s o n

B,

J. The

behaviour of

freely

falling

cy­

linders and cones in a viscous fluid.— J. Fluid Mech.

1965,

vol. 22,

No.

4.

193.

J a y a w e e r a

K. 0.,

M a s o n

B. J. The

falling

motions of loaded

cylin­

ders and

discs

simulating

snow

crystals.— Quart. J. Roy. Meteor. Soc. 1966, vol

92,

No.

391.

194.

J a у

L. S.,, H a f e r

L.

E.,

W o o d

W. A. Operation hailstone.— Weather-

wise, 1953,

vol.

6.

195.

J a у a w e e г a

K.

0.,

C o t t i s

R.

E.

Fall

valocities

of

platelike

and

columnar ice crystals — Quart. J. Roy. Meteor. Soc.

1969,

vol. 95, No.

406.

196.

J o h n s o n

D.

A.,

H a l l e t

J.

Freezing

and

scattering

of

supercooled

water drops.— Quart. J. Roy. Meteor. Soc. 1968, vol. 94,

No.

402.

197.

J o n e s

D. M. The

shape

of

raindrops.— J. Meteor. 1959,

vol.

16,

No.

5.

198.

J o s s

J.,

by

J.

C.,

W a l d v o g e l

A.

The

accuracy

of

daily

rain­

fall

measurements

radar.— Proc. of

13-th

Radar

Meteor. Conf., Montreal.

1968.

T h a m s

.199. J o s s

J.,

W a l d v o g e l

A.

Raindrop-size

distribution

and sampling-size

error.— J. Atmosph. Sei. 1969,

vol. 26,

No.

3.

200.

J o s s

J.,

W a l d v o g e l

А. Ein Spektrograph für Niederschlagstropfen

mit

automatischer

Auswertung.— Pure

and

Appl.

Geohys.

1967, vol.

68,

No.

3.

201.

J u n g

E. Messung

von Tropfengrüssenverteilung

verschiedener

Regenfälle

mit

einen

elektrodynamischen

Regenspektrometer.— Meteor.

Rundschau.

1969,

vol. 22, No.

4.

202.

K a m p e

H.

J.,

W e i c k m a n n

H.

K.,

K e l l y

J. J.

The influence

of

temperature

on

the

shape

of

ice

crystals growing

at

water

saturation.— J. Meteor.

1951, vol. 8, No. 2.

203.

K a t z

I.

A momentum disdrometer for measuring raindrop-size from

aircraft.— Bull. Amer. Meteor. Soc.

1952, vol. 33, No. 9.

204.

К e 1 к a г V. N. Size

distribution

of

raindrops. Part I.— Indian

J. of

Me­

teor. Geophys. 1959, vol. 10, No. 2.

205.

K e l k a r

V.

N.

Size

distribution of

raindrops.— Nature.

1961,

vol.

192,

No.

4799.

206.

К e 1 к а г V. N. Size

distribution

of

raindrops. Part

III.— Indian

J. of

Me­

teor. and

Geophys. 1961, vol. 12, No. 4.

207.

K e l k a r

N. V. Size distribution of raindrops.— Indian J. of Meteor, and

Geophys. 1962, vol. 13, No. 2.

208.

K e l k a r

V. N. Size distribution of raindrops. Part VI.— Indian J. of

Meteor, and Geophys. 1968, vol. 19, No. 2.

209.

K e s s l e r

E. On the distribution and content of water substance in at­

mospheric circulation.— Meteor. Monogr. 1969, vol. 46, No. 32.

210.

K i d d e r

R.

E.,

C a r t r e

A. E. Structures of artificial hailstones.— J. de

recherches atmosph. 1964, vol. 1, No. 4.

211.

K i k u c h i

K. On snow crystals of „bullet“

type.— J. Meteor. Soc. Japan.

1968, vol. 46, No. 2.

D.,

G u n n

R. The evaporation, temperature and thermal

212.

K i n z e r

G.

relaxation time of freely-falling water

drops.— J. Meteor. 1951, vol. 8, No.

1.

213.

K n i g h t

C.

A.,

K n i g h t

N. C. The final freezing of spongy ice: hail­

stone collection techniques and interpretations

of

structures.— J.

Appl.

Meteor.

1968, vol. 7, No. 5.

214.

K n i g h t

C.

A.,

K n i g h t

N. C. Spongy hailstone growth criteria II,

Microstructures.— J. Atmosph. Sei. 1968, vol. 25,

No.

3.

215.

K n i g h t

C.

A.,

K n i g h t

N. C. The falling behaviour of hailstones.—

J. Atmosph. Sei.

1970, vol.

27,

No.

4.

216.

K n i g h t

C.

A.,

K n i g h t

N. C. Hailstone

embryons.— J. Atmosph.

Sei.

1970, vol. 27, No. 4.

A.,

K n i g h t

N.

C. Lobe

structures

of hailstones.— J.

At­

217.

K n i g h t

C.

mosph. Sei. 1970, vol. 27, No. 4.

optical

array:

an

alternative

to

scattering

or

218.

K n o l l e n b e r g

R.

The

10

147

•extinction for airborne

particle

size determination — J.

Appl.

Meteor.

1970,

vol.

9,

No.

1.

219.

К o b a y a s h i

T. Measurement of raindrop-size by means of photographic

paper treated with

CoCl2.— J. Meteor.

Soc. Japan.

1955,

vol. 33,

No.

5.

220.

K o b a y a s h i

T. On the habit of snow crystals

artificially

produced

at

low

pressures.— J. Meteor. Soc. Japan. 1958,

ser. 11,

vol. 36,

No. 5.

221.

K o b a y a s h i

T. The growth of snow crystals at low supersaturations.—

Phil. Mag. 1961, vol. 6,

No.

71.

222.

K o e n i g

R. L. A

note

on a

method to

determine

the orientation

of cry­

stals within hailstones.— Zeit. Angew. Math. Phys.

1962,

vol.

13,

p.

165.

223.

K o e n i g

L. R. The glaciating behavior

of

small

cumulonimbus clouds.—

J. Atmosph. Sei. 1963, vol. 20, No. 1.

224.

K o e n i g

L. Stabilization process

paper

as

a

rain-drop

sensor.— J. Appl.

Meteor. 1964, vol. 3, No. 1.

225.

K o e n i g

L. R. Drop

freezing through

drop

break-up.— J. Atmosph. Sei.

1965, vol. 22, No. 4.

226.

K o e n i g

I.

R.

Some observations suggesting

ice

multiplication

in

(he

atmosphere.— J. Atmosph. Sei. 1968, vol. 24, No. 2.

227.

K o e n i g

L. R. Numerical modeling of

ice

deposition.— J. Atmosph. Sei.

1971, vol. 28, No. 2.

228.

K o m a b a y a s i

M.,

G о n d a T.,

I s о n о

К- Life time of water drops

before breaking and size distribution of fragment

droplets.— J. Meteor. Soc. Japan.

1964, vol. 42, No. 5.

229.

K o o p

W. Der regenbildschreiber.— Met. Rund.

1954,

vol. 7,

No. 5—6.

230.

K u l m a l a

A. Dusty

rain in

Finland

spring.— Umatieteell

Keskuslaitoks

toimituks. 1965,

No.

66.

231.

K u m a i

M.,

I t a g a k i

K. Shape

and

fall

velocity

of raindrops.— J. Me­

teor. Soc. Japan. 1953,

ser.

II,

vol. 32.

232.

L a m m e r s

U.

H.

Electrostatic

analysis

of

raindrop

distributions.— J.

Appl. Meteor. 1969, vol. 8, No. 3.

in

Niederschlügen

und die Radar-Re-

233.

L a m p

R.

Das

Tropfenspeklrum

flektivität nach

fremden

und

eigenen

Messungen.— Beitr. Phys. Atm. 1958,

vol. 30,

No.

4.

L a n g l e b e n

M. P. The terminal velocity of snowflakes.— Quart. J. Roy.

234.

Meteor.

Soc. 1954,

vol.

80,

No.

340.

К. B. A

mathematical

investigation

of

wa­

235.

L a n g m u i r

J.. B l o d g e t t

ter

droplet trajectories.— USA

Air Force tech. rep. 1946,

No.

5418.

236.

L a n g m u i r

J.,

B l o d g e t t

К-

B. Mathematical

investigation

of water

droplet trajectories.— USA Air tech. rep. 1945, No. RL 224.

water

drops

and rain

237.

L a w s

J. O. Measurements of the fall

velocity of

•drops.— Trans. Amer. Geophys. Union. 1941, vol. 22, p. 709.

238.

L a w s

J.

O.,

P a r s o n

D. A. The relation of

raindrop-size to

intensity.

Amer. Geophys. Union. Transaction. 1943, part ІГ, vol. 24.

distribution

of

239.

L a n d s b e r g

H., N e n b e r g e r

H.

On

the

frequency

select drop sizes.— Bull. Amer. Meteor. Soc. 1938, vol.

19, No.

8.

240.

L e e C. W.,

M a g o n o

C. On the vertical

distribution

of

snow

crystals

in relation with conditions revealed by two point radiosonde

soundings.— J. Me­

teor. Soc. Japan. 1967, vol. 45, No. 5.

p.

248.

241.

L e n a r d

P. Uber Regen.— Met. Zs. 1904, vol. 21,

and

cry­

242.

L e v i

L.,

A u f d e r m a u e r

A. N. Crystallographic

orientation

stal

size

in cylindrical

accretion oF ice. J. Atmosph.

Sei. 1970. vol. 27, No.

3.

243.

L e v i

L.,

A c h a v a l

E., A u f d e r m a u r

A. N. Crystal orientation in

a wet growth hailstone.— J. Atmosph. Sei. 1970, vol.

27, No.

3.

Angew.

244.

L i s t

R.

Kennzeichen

atmosphraerischer

eispartikeln.— Zeitsch.

Math. Phys. 1958, vol. 9, Fase. 2, p. 180.

245.

L i s t

R. Zur

Aerodynamik von ITogelkoennern.— Zeitsch. Angew. Math.

Phys. 1959, vol. 10, Fase. 2.

operation of

the

Swiss

hail

tunnel.— Phys. Precipit.

246.

L i s t

R. Design

and

Amer. Geoph. Union.

1960.

in

hail

research.— Science.

1960,

vol.

132,

247.

L i s t

R.

New

developments

No.

3434.

248.

L i s t

R. On the growth of hailstones.— Nubila. 1961, vol. 4, No. 1.

249.

L i s t

R. Physical methods and instruments for characterizing hailsto­

nes.— Bull. Amer. Meteor. Soc. 1961, vol. 42, No. 7.

250.

L i s t

R.

A hail tunnel

with pressure control.— J. Atmosph.

Sei.

1966,

vol. 23, No. 1.

251.

L i s t

R.,

C a n t i n

J. G.,

F e r l a n d M.

G. Structural

properties of

two

hailstone

samples.— J. Atmosph. Sei. 1970, vol. 27,

No. 7.

252.

L i s t

R.,

M c N e i l

C.

F., M с T a g g a r t - G о w a n

J. D.

Laboratory

No.

36.

253. L i s t

R.,

S c h e r n

e n a u e r

R. S. Free-fall

behavior

of planar

snow cry­

stals,

conical

graupel

and

small hail.— J. Atmosph.

Sei.

1971,

vol. 28,

No.

1.

254.

L i s t

R.,

W h e l p

d a l e

D.

M.

A

preliminary

investigation

of

factors

effect

on

the coalescence

of

colliding

water drops.— J. Atmosph. Sei.

1969,

vol. 26,

No.

2.

255.

L о w e A. B. Some

unusial

hailstones.— Weatherwise. 1965, vol. 18,

No. 2.

256.

L u m b F. E. Relation between the

terminal

velocity

and the

dimensions

of snowflakes.— Meteor. Mag. 1961, vol. 90, No.

1073.

particle

sampler.— J.

257.

M a c

G r e a d у

P.

B.,

T o d d

C.

J.

Continuous

Appl. Meteor.. 1964, vol. 3, No. 4.

258.

M а с к 1 i n

W.

C.

Accretion

in

mixed

clouds.— Quart.

J.

Roy.

Meteor.

Soc. 1961, vol. 87, No. 373.

259.

M a c k l i n

W. C. The density and structure of ice formed by accretion.—

Quart. J. Roy. Meteor. Soc. 1962, vol. 88, No. 375.

260.

M a c k l i n

W. C. Heat transfer from hailstones.— Quart. J. Roy. Meteor.

Soc. 1963, vol. 89, No. 381.

261.

M a c k l i n

W.

C.,

B a i l e y

I. H. On

the

critical

liquid

water

concentra­

tions

of

large hailstones.— Quart. J. Roy. Meteor. Soc.

1966,

vol. 92,

No.

392.

262.

M a c k l i n

W.

C.,

B a i l e y

I.

IT.

The

collection

efficiencies

of

hailsto­

nes.— Quart. J. Roy. Meteor. Soc. 1968, vol. 94, No. 401.

263.

M a c k l i n

W.

C.,

L u d l a m

F. H. The

fallspeeds

of

hailstones.— Quart.

J. Roy. Meteor. Soc. 1961, vol. 87, No. 371.

S t e v e n s o n

С.

M.

The

analysis

264.

M a c k l i n

W.

С.,

M e r 1 i v a t L.,

of

a hailstone.— Quart. J. Roy. Meteor. Soc. 1970, vol. 96,

No.

409.

265.

M a c k l i n

W.

C.,

P a y n e

G.

S.

A

theoretical

investigation

of

the

ice

accretion process.— Quart. J. Roy. Meteor. Soc.

1967,

vol. 93,

No.

396.

266.

M a c k l i n

W.

C.,

P a y n e

G.

S. Some aspects of the accretion

pro­

cess.— Quart. J. Roy. Meteor. Soc. 1968, vol. 94,

No.

400.

of

accreted

droplets.—

267.

M a c k l i n

W.

C.,

P a y n e

G. S. The

spreading

Quart. J. Roy. Meteor. Soc. 1969, vol. 95, No. 406.

268.

M a c k l i n

W. C.,

R y a n

B. F. On

the

formation

of

spongy

ice.— Quart.

J. Roy. Meteor. Soc. 1962, vol. 88, No. 378.

269.

M a c k l i n

W.

C.,

R y a n

B. F. The

structure

of

ice

grown

in

bulk

su­

percooled water.— J. Atmosph. Sei.

1965,

vol. 22,

No. 4.

270.

M a g a г V e у

R. H. Stain

method

of

drop-size

determination.— J. Meteor.

1957,

vol. 14, No. 2.

C. Distribution of the large precipitation elements.— J. Meteor.

271.

M a g o n o

Soc. Japan, Ser. II. 1953, vol. 31, No. 8.

272.

M a g o n o

C.

On

the

shape

of water

drops

falling

in stagnant

air.—

J. Meteor. 1954, vol. 11, No. 1.

elements.—

273.

M a g o n o

C.

On

the falling velocity of solid precipitating

Sei. Rep. Yokohama

Nat. Univ. Sec. 1954, vol. 1

(3), No.

1.

274.

M a g o n o

C. Structure of snowfall revealed by geographic distribution

of

snow

crystals.— Physics

of

precipitation. AGU,

1960.

crystals

275.

M a g o n o

C.,

A b u г a к a w a

H. Experimental studies on snow

of

plane type with

spatial

blanches — J.

Facility Sei. Hokkaido

Univer.

ser.

VII,

1968,

vol. 3, No. 2.

C.,

H i k u c h i

K., K i m a r a

T. Investigation

on

the

growth

276. M a g o n o

and

distribution

of

natural

snow

crystals — J. Fac. Sei. Hokkaido Univer. ser. VII,

1963,

vol. 2,

No 1.

277.

M a g о п о

С.,

L e e

С.

Meteorological

classification

of

natural

snow

crystals.— J. Fac. Sei. Hokkaido Univer. ser. VII,

1966,

vol. 2,

No.

4.

278.

M a g o n o

C.,

N a k a m u r a

T.

Aerodynamic

studies

of

falling

snow­

flakes.— J. Meteor.

Soc.

Japan. 1965,

vol. 43,

No. 3.

279.

M a g o n o

С.,

О g u c li i

H. Classification

of snow

flakes

and

their

struc­

tures.— Sei. Report Yokahama National Univer.

1955,

ser. I, vol. 33,

No. 4.

280.

M a g o n o

С ,

T a z a w a

S.

Design

of

snow

crystal

sonders.— J.

At-

mosph. Sei. 1966, vol. 23, No. 5.

281.

M c D o n a l d

J. E.

The

shape

and

aerodynamics

of

large raindrops.—

J. Meteor. 1954, vol. 11, No. 3.

282.

M a r s h a l

J.

S.,

P a l m e r

W.

M.

The

distribution

of

raindrops

with

size.— J. Meteor. 1948,

vol. 5,

No.

2.

283.

M a r u y a m a

H. On conical graupel and its density.— Papers in Meteo­

rology and Geophysics. 1968, vol. 19, No. 1.

284.

M a s o n

B.

J.,

A n d r e w s

J.

B.

Drop-size

distribution

from

various

types

of

rain.— Quart. J. Roy.. Meteor. Soc.

1960, vol. 86,

No. 369.

285.

M a s o n

B. J.,

B r y a n t

G. W.,

V o n

d e n

H e u v a 1

A. P. The

growth

halils

and

surface

structure

of

ice

crystals.— Phil.

Mag.

1963,

vol.

8,

No.

87.

286.

M a s o n

B. J.,

R a m a n a d h a m

R. A. A

photoelectric

raindrop

spectro­

meter.— Quart. J.

Roy. Meteor. Soc. 1953, vol. 79, No. 342.

287.

M a s o n

B. J.,

R a m a n a d h a m

R. Modification

of

the

size

distribution

ofr'-falling raindrops by

coalescence.— Quart. J. Roy. Meteor. Soc.

1954,

vol.

80,

No.

345.

288.

M é s z a r o s

E.,

W i r t h

E. Distribution

spectrale

des

gouttes

des

pluies

tombant des nuages stratiformes.— Idöjârâs. 1960, vol. 64, No. 2.

289.

M é s z a r o s

E.,

W i r t h

E. Distribution

spectrale

des

gouttes

des

pluies

tombont des nuages cumuliformes.— Idöjârâs. 1961, vol. 65, No. 2.

290.

M e. D o n a l d

J. E. Use of the electrostatic analogy in studies of ice

crystal

growth.— Zeitsch. Angew. Math. Phys. 1963, vol. 14,

No.

5.

291.

M o n t g o m e r y

D. N. Collision

and

coalescence

of

water

drops.— J. of

Atmosph. Sei. 1971, vol. 28, No. 2.

F. A

laboratory

observation

of

hailstone "lobe"

292.

M o r g a n

G. M.,

P r o d i

formation following the termination of spongy growth by

accretion.— J.

Appl.

Meteor. 1969, vol. 8, No. 5.

293.

M o r g a n

G. M. A

suggested

mechanism

for

the

growth

of

large

hail­

stones.— Ricerca

scient. 1968,

vol. 38,

No.

4.

294.

M o s s o p

S.

C.

Some

hailstones

of

unusual

shape.— Weather.

1971,

vol. 26, No.

5.

S.

C.,

K i d d e r

R.

E.

Structure

of

hailstones

II.— Nubila.

295.

M o s s o p

1961, vol. 4, No. 1.

296.

M o s s o p

S.

C.,

K i d d e r

R.

E.

Artificial

hailstones.— Bull.

Obs.

Puy.

de Dome. 1962, vol. 2, No. 1.

A.,

H e f f e г n a n

K-

J.

Studies

of ice

crystals

297.

M o s s o p

S.

С.,

О n о

in natural

clouds.— J. Rech. Atmosph. 1967,

vol. 3,

No. 2.

298.

N a k a y a

U.

Snow

crystals:

natural

and

artificial.— Harward

Univer.

Press.,

1,

1954.

В. H.,

G u p t a

S. C. Precipitation

characteristics

based on

rain­

299.

M n r t y

drop-size measurements

at Delhi

and

Khandala

during south-west monsoon.— J. Sei.

Industr. Res. 1959, vol. 8, No. 8.

300.

N a k a y a

U.,

T e r a d a .

Simultaneous

observations

of

the

mass,

falling

velocity

and

form

of

individual

snow

crystals.— J.

Fac.

Sei.

Hokkaido

Univer.,

ser. II,

1935,

vol.

1.

U.,

H i g u c h i

K- H o r i z o n t a l

distribution

of

snow

cry­

301.

N a k a y a

stals during the snowfall. Physics

of

precipitation, 1960.

and

recorder. Pat.

302

N a t h a n

A. M. Automatic

raindrop

size

spectrometer

USA, cl. 250—222, No. 3153727, z: 31.05.63.

drop

sizes.— Bull.

303.

N e u b e r g e r

H. Notes on measurements of rain

Amer. Meteor. Soc. 1942, vol. 23, No. 6.

der

Groesse der

Regentropfen.— Meteor.

304.

N i e d e r d o r f e r

E. Messungen

Zeit.

1932,

vol. 49.